Your search keyword '"GOLDEN hamster"' showing total 4,624 results

1. Super broad and protective nanobodies against Sarbecoviruses including SARS-CoV-1 and the divergent SARS-CoV-2 subvariant KP.3.1.1.

Author

Dong, Haodi, Zhou, Runhong, Chen, Jing, Wei, Jing, Wei, Zimeng, Yang, Ziqing, Zhu, Kun, Yang, Yufan, Yang, Qianqian, Liu, Na, Chen, Yuting, Wu, Yuhan, Liang, Yan, Zeng, Yige, Guo, Qile, Li, Mingxi, Shan, Sisi, Wang, Han, Niu, Mengyue, and Yunfei Zeng, Isabella

Subjects

*SARS-CoV-2 Omicron variant, *SARS-CoV-2, *SARS virus, *GOLDEN hamster, *INTRANASAL administration

Abstract

The ongoing evolution and immune escape of SARS-CoV-2, alongside the potential threat of SARS-CoV-1 and other sarbecoviruses, underscore the urgent need for effective strategies against their infection and transmission. This study highlights the discovery of nanobodies from immunized alpacas, which demonstrate exceptionally broad and potent neutralizing capabilities against the recently emerged and more divergent SARS-CoV-2 Omicron subvariants including JD.1.1, JN.1, KP.3, KP.3.1.1, as well as SARS-CoV-1 and coronaviruses from bats and pangolins utilizing receptor ACE2. Among these, Tnb04-1 emerges as the most broad and potent, binding to a conserved hydrophobic pocket in the spike's receptor-binding domain, distinct from the ACE2 binding site. This interaction disrupts the formation of a proteinase K-resistant core, crucial for viral-cell fusion. Notably, intranasal administration of Tnb04-1 in Syrian hamsters effectively prevented respiratory infection and transmission of the authentic Omicron XBB.1.5 subvariant. Thus, Thb04-1 holds promise in combating respiratory acquisition and transmission of diverse sarbecoviruses. Author summary: As SARS-CoV-2 evolves and evades antibody immunity, new antibody intervention strategies are urgently needed to prevent viral acquisition and transmission. We identified a cluster of nanobodies from immunized alpacas with broad and potent neutralizing activity against all major SARS-CoV-2 variants, SARS-CoV-1, and ACE2-utilizing coronaviruses from bats and pangolins. Tnb04-1 was the most effective, binding to a conserved epitope in spike and providing strong protection against contact and respiratory infection of Omicron XBB.1.5 in Syrian hamsters. Tnb04-1 shows promise for next-generation antibody interventions against diverse sarbecoviruses. [ABSTRACT FROM AUTHOR]

Published

2024

2. Detection of Double-Stranded RNA Intermediates During SARS-CoV-2 Infections of Syrian Golden Hamsters with Monoclonal Antibodies and Its Implications for Histopathological Evaluation of In Vivo Studies.

Author

Beythien, Georg, de le Roi, Madeleine, Stanelle-Bertram, Stephanie, Armando, Federico, Heydemann, Laura, Rosiak, Malgorzata, Becker, Svenja, Lamers, Mart M., Kaiser, Franziska K., Haagmans, Bart L., Ciurkiewicz, Malgorzata, Gabriel, Gülşah, Osterhaus, Albert D. M. E., and Baumgärtner, Wolfgang

Subjects

*VIRAL antigens, *GOLDEN hamster, *VIRUS diseases, *BIOMARKERS, *DOUBLE-stranded RNA

Abstract

The SARS-CoV-2 pandemic has highlighted the challenges posed by the emergence and rapid global spread of previously unknown viruses. Early investigations on the pathogenesis of newly identified viruses are often hampered by a lack of appropriate sample material and conventional detection methods. In this study, viral replication within the lungs of SARS-CoV-2-infected Syrian golden hamsters was assessed by immunolabeling dsRNA intermediates with three different monoclonal antibodies in formalin-fixed, paraffin-embedded tissue samples. The presence of dsRNA was compared to viral antigen levels, viral titers, and genomic RNA replicates using three different variants of concern and an ancestral virus strain at a single time point and during the course of infection with an ancestral variant, and then validated using fluorescent 2-plex in situ hybridization. The results indicate that the detection of viral infection using anti-dsRNA antibodies is restricted to an early phase of infection with high viral replication activity. Additionally, the combined detection of dsRNA intermediates and viral antigens may help to bridge the interpretation gaps between viral antigen levels and viral titers at a single time point. Further testing in other viral infections or species is needed to assess the potential of dsRNA as an early marker for viral infections. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of social dominance and acute social stress on morphology of microglia and structural integrity of the medial prefrontal cortex.

Author

Grizzell, J. Alex, Clarity, Thomas T., Rodriguez, R. Mason, Marshall, Zachary Q., and Cooper, Matthew A.

Subjects

*SOCIAL defeat, *GOLDEN hamster, *CELL death, *CONDITIONED response, *SOCIAL structure, *SYNAPTOPHYSIN

Abstract

• Acute social defeat alters morphology of microglia in infralimbic cortex. • Dominant hamsters show less reactive microglia and cell damage than subordinates. • Blocking microglia activity with minocycline increased stress-related behavior. • Microglia activity in the infralimbic cortex may be necessary for stress coping. Chronic stress increases activity of the brain's innate immune system and impairs function of the medial prefrontal cortex (mPFC). However, whether acute stress triggers similar neuroimmune mechanisms is poorly understood. Across four studies, we used a Syrian hamster model to investigate whether acute stress drives changes in mPFC microglia in a time-, subregion-, and social status-dependent manner. We found that acute social defeat increased expression of ionized calcium binding adapter molecule 1 (Iba1) in the infralimbic (IL) and prelimbic (PL) and altered the morphology Iba1+ cells 1, 2, and 7 days after social defeat. We also investigated whether acute defeat induced tissue degeneration and reductions of synaptic plasticity 2 days post-defeat. We found that while social defeat increased deposition of cellular debris and reduced synaptophysin immunoreactivity in the PL and IL, treatment with minocycline protected against these cellular changes. Finally, we tested whether a reduced conditioned defeat response in dominant compared to subordinate hamsters was associated with changes in microglia reactivity in the IL and PL. We found that while subordinate hamsters and those without an established dominance relationships showed defeat-induced changes in morphology of Iba1+ cells and cellular degeneration, dominant hamsters showed resistance to these effects of social defeat. Taken together, these findings indicate that acute social defeat alters microglial morphology, increases markers of tissue degradation, and impairs structural integrity in the IL and PL, and that experience winning competitive interactions can specifically protect the IL and reduce stress vulnerability. [ABSTRACT FROM AUTHOR]

Published

2024

4. Intracranial inoculation rapidly induces Nipah virus encephalitis in Syrian hamsters.

Author

Singh, Manmeet, Goldin, Kerry, Flagg, Meaghan, Williamson, Brandi N., Lutterman, Tessa, Smith, Brian, and de Wit, Emmie

Subjects

*NIPAH virus, *GOLDEN hamster, *NEUROLOGICAL disorders, *VIRUS diseases, *ENCEPHALITIS viruses

Abstract

Nipah virus (NiV) is a highly pathogenic Paramyxovirus associated with outbreaks in Malaysia, Bangladesh, and India with high mortality rates. NiV infection causes fatal respiratory and neurological disease. The majority of survivors suffer from long-term neurological sequelae or late onset and relapsed encephalitis. The pathogenesis of neurological disease is complex and has not been able to be studied in current animal models as they are skewed towards the development of lethal respiratory disease rather than neurological disease. Although NiV neurological disease can be observed in animal models, there is currently no model where the majority of animals consistently develop neurological disease. Here, we developed a new Syrian hamster (Mesocricetus auratus) model to mimic neurological disease in humans. Hamsters were inoculated intracranially in the cerebellomedullary cistern with different doses of NiV, strain Malaysia. Intracranial NiV inoculation in the cerebellomedullary cistern resulted in a rapid progression towards severe neurological disease requiring euthanasia. High Nipah viral loads were detected in the brains, and NiV spread from the CNS to the lungs. Histopathologic examination of the brain showed ischemic necrosis, often accompanied by marked edema and hemorrhage. NiV antigen was detected primarily in meninges and cerebellum, but rarely observed in brain parenchyma. These histological lesions were different from the typical lesions observed in NiV-infected humans. Thus, despite the consistent development of neurological disease, intracranial inoculation does not result in a model representative of NiV neurological disease. Author summary: Nipah virus causes outbreaks of severe respiratory and neurological disease in Bangladesh and India. The majority of Nipah virus-infected patients succumb to the disease; survivors often suffer from lasting neurological consequences of infection. Although Nipah virus infection of the brain is thus an important component of Nipah virus disease, most studies to date have focused on the severe respiratory disease also caused by Nipah virus. In an attempt to develop a robust model to study Nipah virus neurological disease, we infected Syrian hamsters with Nipah virus by injecting the virus directly into the cerebellomedullary cistern in the brain. Animals quickly developed severe neurological disease requiring euthanasia and the virus could be detected at high levels in the brain, and lower levels in the lungs. Interestingly, the changes observed in the brains of infected animals were not the same as those observed in Syrian hamsters infected via other routes, nor those observed in human cases of Nipah virus infection in Malaysia, indicating that the inoculation route determines the course of disease in the brain. [ABSTRACT FROM AUTHOR]

Published

2024

5. Single-cell spatiotemporal analysis of the lungs reveals Slamf9+ macrophages involved in viral clearance and inflammation resolution.

Author

Cong, Boyi, Dong, Xuan, Yang, Zongheng, Yu, Pin, Chai, Yangyang, Liu, Jiaqi, Zhang, Meihan, Zang, Yupeng, Kang, Jingmin, Feng, Yu, Liu, Yi, Feng, Weimin, Wang, Dehe, Deng, Wei, Li, Fengdi, Song, Zhiqi, Wang, Ziqiao, Chen, Xiaosu, Qin, Hua, and Yu, Qinyi

Subjects

ALVEOLAR macrophages, GOLDEN hamster, CELL death, LUNG infections, EARLY death

Abstract

How the lung achieves immune homeostasis after a pulmonary infection is not fully understood. Here, we analyzed the spatiotemporal changes in the lungs over a 2-week natural recovery from severe pneumonia in a Syrian hamster model of SARS-CoV-2 infection. We find that SARS-CoV-2 infects multiple cell types and causes massive cell death at the early stage, including alveolar macrophages. We identify a group of monocyte-derived Slamf9+ macrophages, which are induced after SARS-CoV-2 infection and resistant to impairment caused by SARS-CoV-2. Slamf9+ macrophages contain SARS-CoV-2, recruit and interact with Isg12+Cst7+ neutrophils to clear the viruses. After viral clearance, Slamf9+ macrophages differentiate into Trem2+ and Fbp1+ macrophages, contributing to inflammation resolution at the late stage, and finally replenish alveolar macrophages. These findings are validated in a SARS-CoV-2-infected hACE2 mouse model and confirmed with publicly available human autopsy single-cell RNA-seq data, demonstrating the potential role of Slamf9+ macrophages and their coordination with neutrophils in post-injury tissue repair and inflammation resolution. [ABSTRACT FROM AUTHOR]

Published

2024

6. Single-cell spatiotemporal analysis reveals alveolar dendritic cell–T cell immunity hubs defending against pulmonary infection.

Author

Cong, Boyi, Dong, Xuan, Yang, Zongheng, Yu, Pin, Chai, Yangyang, Liu, Jiaqi, Zhang, Meihan, Zang, Yupeng, Kang, Jingmin, Feng, Yu, Liu, Yi, Feng, Weimin, Wang, Dehe, Deng, Wei, Li, Fengdi, Song, Zhiqi, Wang, Ziqiao, Chen, Xiaosu, Qin, Hua, and Yu, Qinyi

Subjects

GOLDEN hamster, DENDRITIC cells, LUNG infections, RNA sequencing, LUNGS, T cells

Abstract

How immune cells are spatiotemporally coordinated in the lung to effectively monitor, respond to, and resolve infection and inflammation in primed form needs to be fully illustrated. Here we apply immunocartography, a high-resolution technique that integrates spatial and single-cell RNA sequencing (scRNA-seq) through deconvolution and co-localization analyses, to the SARS-CoV-2-infected Syrian hamster model. We generate a comprehensive transcriptome map of the whole process of pulmonary infection from physiological condition, infection initiation, severe pneumonia to natural recovery at organ scale and single-cell resolution, with 142,965 cells and 45 lung lobes from 25 hamsters at 5 time points. Integrative analysis identifies that alveolar dendritic cell–T cell immunity hubs, where Ccr7+Ido1+ dendritic cells, Cd160+Cd8+ T cells, and Tnfrsf4+Cd4+ T cells physiologically co-localize, rapidly expand during SARS-CoV-2 infection, eliminate SARS-CoV-2 with the aid of Slamf9+ macrophages, and then restore to physiological levels after viral clearance. We verify the presence of these cell subpopulations in the immunity hubs in normal and SARS-CoV-2-infected hACE2 mouse models, as well as in publicly available human scRNA-seq datasets, demonstrating the potential broad relevance of our findings in lung immunity. [ABSTRACT FROM AUTHOR]

Published

2024

7. A multispecific antibody against SARS-CoV-2 prevents immune escape in vitro and confers prophylactic protection in vivo.

Author

Misasi, John, Wei, Ronnie R., Wang, Lingshu, Pegu, Amarendra, Wei, Chih-Jen, Oloniniyi, Olamide K., Zhou, Tongqing, Moliva, Juan I., Zhao, Bingchun, Choe, Misook, Yang, Eun Sung, Zhang, Yi, Boruszczak, Marika, Chen, Man, Leung, Kwanyee, Li, Juan, Yang, Zhi-Yong, Andersen, Hanne, Carlton, Kevin, and Godbole, Sucheta

Subjects

SARS-CoV-2, SARS-CoV-2 Omicron variant, COVID-19 treatment, GOLDEN hamster, ELECTRON microscopy

Abstract

Despite effective countermeasures, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) persists worldwide because of its ability to diversify and evade human immunity. This evasion stems from amino acid substitutions, particularly in the receptor binding domain (RBD) of the spike protein that confers resistance to vaccine-induced antibodies and antibody therapeutics. To constrain viral escape through resistance mutations, we combined antibody variable regions that recognize different RBD sites into multispecific antibodies. Here, we describe multispecific antibodies, including a trivalent trispecific antibody that potently neutralized diverse SARS-CoV-2 variants and prevented virus escape more effectively than single antibodies or mixtures of the parental antibodies. Despite being generated before the appearance of Omicron, this trispecific antibody neutralized all major Omicron variants through BA.4/BA.5 at nanomolar concentrations. Negative stain electron microscopy suggested that synergistic neutralization was achieved by engaging different epitopes in specific orientations that facilitated binding across more than one spike protein. Moreover, a tetravalent trispecific antibody containing the same variable regions as the trivalent trispecific antibody also protected Syrian hamsters against Omicron variants BA.1, BA.2, and BA.5 challenge, each of which uses different amino acid substitutions to mediate escape from therapeutic antibodies. These results demonstrated that multispecific antibodies have the potential to provide broad SARS-CoV-2 coverage, decrease the likelihood of escape, simplify treatment, and provide a strategy for antibody therapies that could help eliminate pandemic spread for this and other pathogens. Editor's summary: Monoclonal antibodies were an essential component of the COVID-19 treatment toolbox, at least until Omicron and its subvariants arose. As new variants wipe out efficacy of existing monoclonal antibodies, new options are urgently needed, especially to protect immunocompromised individuals who cannot make antibodies of their own. Here, Misasi et al. developed a series of multispecific antibodies that were able to more broadly neutralize SARS-CoV-2 pseudoviruses than their monoclonal antibody counterparts. One trivalent trispecific antibody combination was also able to prevent pseudovirus escape in vitro. To avoid heavy/light chain mispairing, the authors made that trivalent trispecific antibody into a tetravalent trispecific antibody. When administered to mice prophylactically, this antibody was able to confer protection against challenge with BA.1, BA.2, and BA.5. These data highlight the potential of multispecific antibodies as a long-term component of the COVID-19 toolbox. —Courtney Malo [ABSTRACT FROM AUTHOR]

Published

2024

8. Evidence for SARS-CoV-2 infected Golden Syrian hamsters (Mesocricetus auratus) reducing daily energy expenditure and body core temperature.

Author

Mohl, Björn-Patrick, Blaurock, Claudia, Riek, Alexander, Hambly, Catherine, Speakman, John R., and Balkema-Buschmann, Anne

Subjects

*COVID-19, *HAMSTERS, *BODY temperature, *GOLDEN hamster, *DRINKING (Physiology), *DATA loggers, *WEIGHT loss

Abstract

Golden Syrian hamsters (Mesocricetus auratus) are a well-established animal model for human infections with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) due to their susceptibility to SARS-CoV-2 infection, robust virus replication and pathological manifestations similar to human COVID-19 pneumonia. To investigate the physiological changes upon infection in this animal model, we explored the alterations in daily energy expenditure (DEE), water turnover, body mass, body temperature, and locomotor activity in non-infected and SARS-CoV-2 infected Golden Syrian hamsters for four days post SARS-CoV-2. DEE was measured using the doubly labelled water method, which allows for the accurate estimation of carbon dioxide production and, consequently, energy expenditure in animals. Additionally, we investigated total water intake (TWI), which comprises drinking water, preformed water in food, and metabolic water. Using intraperitoneally implanted data loggers, we also monitored body core temperature and locomotor activity in some of the animals. Here we provide evidence for infected hamsters exhibiting significantly lower DEE and TWI compared to non-infected animals. We also observed an increase in body weight in the non-infected animals, while infected animals experienced weight loss. Further, infected animals showed a significantly decreased body temperature, indicating a generally lowered metabolic rate. [ABSTRACT FROM AUTHOR]

Published

2024

9. Variation of NPY and AGRP MRNA expression in Syrian hamsters according to feeding times.

Author

İNAN, Pınar and GÜNDÜZ, Bülent

Subjects

*GOLDEN hamster, *GENE expression, *PUERPERIUM, *PROTEIN analysis, *BODY weight

Abstract

The purpose of this study was to determine the impact of feeding time on NPY/AgRP protein and mRNA expression in the brain during prenatal and postnatal periods. Feeding at different times of the day during pregnancy may have lasting effects on the hypothalamic circuitry in offspring energy homeostasis. In the experimental design, adult female hamsters were randomly assigned to receive three different feeding conditions: ad libitum, night-time feeding and day-time feeding groups. After the lactation period, feeding regimens were continued for the offspring born from mothers who were given nutritional regimens, until they were 30 days old. RT-PCR for NPY/AgRP mRNA expression and ELISA analysis for protein levels were performed on hypothalamus tissues of hamsters at 10, 20 and 30 days of postnatal stage. There was no difference between the groups in terms of the daily measured food consumption of the offspring's. Body weights were significantly decreased in both night-time and day-time feeding groups compared to the ad libitum group (p<0.05). The highest increase in mRNA expression of NPY/AgRP was seen in the samples taken at 10. day of lactation in the night-time and day-time feeding groups of the offspring treated with three different feeding regimens. When the feeding regimes were compared, it was observed that the protein and mRNA expression of both NPY and AGRP increased the most in the offspring groups in which the feeding was restricted night -time only. Early stages of development have shown that maternal factors have significantly affected the offspring NPY and AgRP mRNA expression and protein levels. These results show that the metabolic regulation of energy balance may change with maternal factors during the very early stages of development. [ABSTRACT FROM AUTHOR]

Published

2024

10. Differences in Susceptibility to SARS-CoV-2 Infection Among Transgenic hACE2-Hamster Founder Lines.

Author

Gibson, Scott A., Liu, Yanan, Li, Rong, Hurst, Brett L., Fan, Zhiqiang, Siddharthan, Venkatraman, Larson, Deanna P., Sheesley, Ashley Y., Stewart, Rebekah, Kunzler, Madelyn, Polejaeva, Irina A., Van Wettere, Arnaud J, Moisyadi, Stefan, Morrey, John D., Tarbet, E. Bart, and Wang, Zhongde

Subjects

*GOLDEN hamster, *TRANSGENIC animals, *ANGIOTENSIN converting enzyme, *NEUROLOGICAL disorders, *SYMPTOMS, *LUNGS

Abstract

Animal models that are susceptible to SARS-CoV-2 infection and develop clinical signs like human COVID-19 are desired to understand viral pathogenesis and develop effective medical countermeasures. The golden Syrian hamster is important for the study of SARS-CoV-2 since hamsters are naturally susceptible to SARS-CoV-2. However, infected hamsters show only limited clinical disease and resolve infection quickly. In this study, we describe development of human angiotensin-converting enzyme 2 (hACE2) transgenic hamsters as a model for COVID-19. During development of the model for SARS-CoV-2, we observed that different hACE2 transgenic hamster founder lines varied in their susceptibility to SARS-CoV-2 lethal infection. The highly susceptible hACE2 founder lines F0F35 and F0M41 rapidly progress to severe infection and death within 6 days post-infection (p.i.). Clinical signs included lethargy, weight loss, dyspnea, and mortality. Lethality was observed in a viral dose-dependent manner with a lethal dose as low as 1 × 100.15 CCID50. In addition, virus shedding from highly susceptible lines was detected in oropharyngeal swabs on days 2–5 p.i., and virus titers were observed at 105.5−6.5 CCID50 in lung and brain tissue by day 4 p.i.. Histopathology revealed that infected hACE2-hamsters developed rhinitis, tracheitis, bronchointerstitial pneumonia, and encephalitis. Mortality in highly susceptible hACE2-hamsters can be attributed to neurologic disease with contributions from the accompanying respiratory disease. In contrast, virus challenge of animals from less susceptible founder lines, F0M44 and F0M51, resulted in only 0–20% mortality. To demonstrate utility of this SARS-CoV-2 infection model, we determined the protective effect of the TLR3 agonist polyinosinic-polycytidylic acid (Poly (I:C)). Prophylactic treatment with Poly (I:C) significantly improved survival in highly susceptible hACE2-hamsters. In summary, our studies demonstrate that hACE2 transgenic hamsters differ in their susceptibility to SARS-CoV-2 infection, based on the transgenic hamster founder line, and that prophylactic treatment with Poly (I:C) was protective in this COVID-19 model of highly susceptible hACE2-hamsters. [ABSTRACT FROM AUTHOR]

Published

2024

11. Immunogenicity and efficacy of XBB.1.5 rS vaccine against the EG.5.1 variant of SARS-CoV-2 in Syrian hamsters.

Author

Soudani, Nadia, Bricker, Traci L., Darling, Tamarand, Seehra, Kuljeet, Patel, Nita, Guebre-Xabier, Mimi, Smith, Gale, Davis-Gardner, Meredith, Suthar, Mehul S., Ellebedy, Ali H., and Boon, Adrianus C. M.

Subjects

*SARS-CoV-2, *COVID-19, *SARS-CoV-2 Omicron variant, *GOLDEN hamster, *VACCINE effectiveness, *IMMUNOGLOBULINS, *T cells

Abstract

The continued emergence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants necessitates updating coronavirus disease 2019 (COVID-19) vaccines to match circulating strains. The immunogenicity and efficacy of these vaccines must be tested in pre-clinical animal models. In Syrian hamsters, we measured the humoral and cellular immune response after immunization with the nanoparticle recombinant Spike (S) protein-based COVID-19 vaccine (Novavax, Inc.). We also compared the efficacy of the updated monovalent XBB.1.5 variant vaccine with previous COVID-19 vaccines for the induction of XBB.1.5 and EG.5.1 neutralizing antibodies and protection against a challenge with the EG.5.1 variant of SARS-CoV-2. Immunization induced high levels of S-specific IgG and IgA antibody-secreting cells and antigen-specific CD4+ T cells. The XBB.1.5 and XBB.1.16 vaccines, but not the Prototype vaccine, induced high levels of neutralizing antibodies against the XBB.1.5, EG.5.1, and JN.1 variants of SARS-CoV-2. Upon challenge with the Omicron EG.5.1 variant, the XBB.1.5 and XBB.1.16 vaccines reduced the virus load in the lungs, nasal turbinates, trachea, and nasal washes. The bivalent vaccine (Prototype rS + BA.5 rS) continued to offer protection in the trachea and lungs, but protection was reduced in the upper airways. By contrast, the monovalent Prototype vaccine no longer offered good protection, and breakthrough infections were observed in all animals and tissues. Thus, based on these study results, the protein-based XBB.1.5 vaccine is immunogenic and increased the breadth of protection against the Omicron EG.5.1 variant in the Syrian hamster model. [ABSTRACT FROM AUTHOR]

Published

2024

12. PLGA‐Loaded Nedaplatin (PLGA‐NDP) Inhibits 7,12‐Dimethylbenz[a]anthracene (DMBA) Induced Oral Carcinogenesis via Modulating Notch Signaling Pathway and Induces Apoptosis in Experimental Hamster Model.

Author

Ilanchit Chenni, Senkuttuvan, Suresh, Kathiresan, Theerthu, Azhamuthu, Ahamed, Abulkalam A. N., Pugazhendhi, Ravichandran, and Vasu, Rajeswari

Subjects

*NOTCH signaling pathway, *NOTCH genes, *GOLDEN hamster, *ORAL drug administration, *WESTERN immunoblotting

Abstract

The present study is designed to evaluate the nanotherapeutic efficacy of prepared PLGA‐loaded Nedaplatin (PLGA‐NDP) against 7,12‐dimethyl benz(a)anthracene (DMBA)‐induced experimental oral carcinogenesis in hamster buccal pouch (HBP) model. The buccal pouch of golden Syrian hamsters was painted with 0.5% DMBA in liquid paraffin three times a week for 14 weeks, ultimately leading to the development of oral squamous cell carcinoma (OSCC). Oral administration of PLGA‐NDP (preinitiation) and Cisplatin delivery (5 mg/kg b.wt) started 1 week before the carcinogen exposure and continued on alternative days. Post‐administration of PLGA‐NDP (5 mg/kg b.wt) started 2 days after carcinogen (DMBA) induction until the end of the experiment. After the 14th week, we observed that DMBA‐painted hamsters exhibited tumor formation, morphological alterations, and well‐differentiated OSSC in addition to the responsive molecular proteins during oral carcinogenesis. Furthermore, immunoblotting analysis demonstrated that PLGA‐NDP inhibits Notch signaling, as evidenced by downregulation of Bcl‐Xl, Bcl‐2, p21, PGE2, HGF, and CXCL12 proteins, and upregulation of p53 and Bax. This apoptotic response is crucial for PLGA‐NDP to induce apoptosis. In addition, RT‐PCR results showed that PLGA‐NDP nanoparticles play a downregulatory role in the therapeutic action of the notch signaling gene (Notch1, Notch 2, Hes1, Hey1, and Jagged1) at the mRNA transcription level in HBP carcinoma. Taken together, these data indicate that PLGA‐NDP is a potent inhibitor of oral carcinogenesis and the expansion of cells that specifically target the Notch signaling pathway indicates that obstructing Notch signaling could potentially serve as a new and innovative therapeutic approach for oral squamous cell carcinoma (OSCC). Summary: The present investigation assesses the therapeutic efficacy of PLGA‐loaded Nedaplatin (PLGA‐NDP) in treating oral cancer within a hamster model. The research highlights that PLGA‐NDP specifically targets the Notch signaling pathway and initiates apoptosis to impede oral carcinogenesis. To achieve this, we incorporate techniques such as histopathological examination, Western blot analysis, and quantitative mRNA expression analysis to visualize the presence of PLGA‐NDP nanoparticles within specific organs and tissues, evaluate their role in binding and uptake, and assess internalization and clearance. Our findings indicate that obstructing Notch signaling may represent a novel therapeutic strategy for oral squamous cell carcinoma (OSCC). [ABSTRACT FROM AUTHOR]

Published

2024

13. Toxicological Evaluation of Kaempferol and Linearolactone as Treatments for Amoebic Liver Abscess Development in Mesocricetus auratus.

Author

Varela-Rodríguez, Luis, Calzada, Fernando, Velázquez-Domínguez, José Antonio, Hernández-Ramírez, Verónica Ivonne, Varela-Rodríguez, Hugo, Bautista, Elihú, Herrera-Martínez, Mayra, Pichardo-Hernández, Diana Laura, Castellanos-Mijangos, Rodrigo Daniel, Chávez-Munguía, Bibiana, and Talamás-Rohana, Patricia

Subjects

*GOLDEN hamster, *LIVER abscesses, *BLOOD urea nitrogen, *MAGNETIC resonance imaging, *ENTAMOEBA histolytica, *ASPARTATE aminotransferase

Abstract

Several studies with kaempferol (KP) and linearolactone (LL) have demonstrated their antiparasitic activity. However, the toxicity of these treatments is unknown. Therefore, this study aimed to evaluate the possible toxicological effects of intraperitoneal (i.p.) administration of KP or LL on the amoebic liver abscess model (ALA) in Mesocricetus auratus. An ALA was induced in male hamsters with 1.5 × 105Entamoeba histolytica (E. histolytica) trophozoites inoculated in the left hepatic lobe. The lesion evolved for 4 days, and then KP (5 mg/kg body weight/day) or LL (10 mg/kg body weight/day) was administered for 4 consecutive days. Then, magnetic resonance imaging (MRI), paraclinical analyses, and necropsy for histopathological evaluation were performed. There was similar ALA inhibition by KP (19.42%), LL (28.16%), and metronidazole, the antiamoebic control (20.87%) (p ≤ 0.05, analysis of variance [ANOVA]). There were hepatic and renal biochemical alterations in all treatment groups, mainly for KP (aspartate aminotransferase: 347.5 ± 37.5 U/L; blood urea nitrogen: 19.4 ± 1.9 g/dL; p ≤ 0.05, ANOVA). Lesions found in the organs were directly linked to the pathology. In conclusion, KP and LL decreased ALA development and exerted fewer toxicological effects compared with metronidazole. Therefore, both compounds exhibit therapeutic potential as an alternative treatment of amoebiasis caused by E. histolytica. However, additional clinical studies in different contexts are required to reaffirm this assertion. [ABSTRACT FROM AUTHOR]

Published

2024

14. Evaluation of the therapeutic action of original antiviral drug in SARS‐CoV‐2.

Author

Melkonian, Arthur K. and Hakobyan, Gagik V.

Subjects

*GOLDEN hamster, *VIRUS diseases, *COMPUTED tomography, *HAMSTERS, *CORONAVIRUSES

Abstract

Purpose of this article is to study the possible direct antiviral effect of "Armenikum" on SARS‐CoV‐2, conduct an in vitro study on the SARS‐CoV‐2 encephalomocarditis virus, and an in vivo study on the Syrian hamster model. Human coronavirus SARS‐CoV‐2 (delta strain) was used as the virus. Two groups of four‐specimen hamsters were used to study the therapeutic activity of the drug during 48 h after infecting. One group of hamsters served as positive control and was infected with the virus at a similar dose as experimental one and was used as a control of pathology induced by the viral infection till the end of the experiment. Another group of hamsters (four of them) was injected physiological solution and was used as a control. The Syrian hamsters underwent a clinical blood test and computed tomography. "Armenikum" in the form of an injection has a significant antiviral effect on the human coronavirus SARS‐CoV‐2, credibly reducing the titers of the virus and the time of its elimination from the Syrian hamsters, significantly mitigating the viral infection. "Armenikum" in the form of an injection drug almost completely removes the pathological effect of the virus in the lungs of the hamsters. [ABSTRACT FROM AUTHOR]

Published

2024

15. Characterization of the gastrointestinal microbiome of the Syrian hamster (Mesocricetus auratus) and comparison to data from mice.

Author

Böswald, Linda F., Popper, Bastian, Matzek, Dana, Neuhaus, Klaus, and Wenderlein, Jasmin

Subjects

GOLDEN hamster, PHYSIOLOGY, SPECIES specificity, GASTROINTESTINAL contents, PELLETED feed

Abstract

Syrian hamsters (Mesocricetus auratus) have been increasingly used as rodent models in recent years, especially for SARS‐CoV‐2 since the pandemic. However, the physiology of this animal model is not yet well‐understood, even less when considering the digestive tract. Generally, the gastrointestinal microbiome influences the immune system, drug metabolism, and vaccination efficacy. However, a detailed understanding of the gastrointestinal microbiome of hamsters is missing. Therefore, we analyzed 10 healthy 11‐week‐old RjHan:AURA hamsters fed a pelleted standard diet. Their gastrointestinal content was sampled (i.e., forestomach, glandular stomach, ileum, cecum, and colon) and analyzed using 16S rRNA gene amplicon sequencing. Results displayed a distinct difference in the bacterial community before and after the cecum, possibly due to the available nutrients and digestive functions. Next, we compared hamsters with the literature data of young‐adult C57BL/6J mice, another important animal model. We sampled the same gastrointestinal regions and analyzed the differences in the microbiome between both rodents. Surprisingly, we found strong differences in their specific gastrointestinal bacterial communities. For instance, Lactobacillaceae were more abundant in hamsters' forestomach and ileum, while Muribaculaceae dominated in the mouse forestomach and ileum. Similarly, in mouse cecum and colon, Muribaculaceae were dominant, while in hamsters, Lachnospiraceae and Erysipelotrichaceae dominated the bacterial community. Molecular strains of Muribaculaceae in both rodent species displayed some species specificity. This comparison allows a better understanding of the suitability of the Syrian hamster as an animal model, especially regarding its comparability to other rodent models. Thereby, this work contributes to the characterization of the hamster model and allows better experimental planning. [ABSTRACT FROM AUTHOR]

Published

2024

16. Coadministration of PEGylated apohemoglobin and haptoglobin can limit vascular dysfunction in the microcirculation and prevent acute inflammation.

Author

Munoz, Carlos J., Lucas, Daniela, Muller, Cynthia R., Martinez, Jacinda, O'Boyle, Quintin, Pires, Ivan S., Palmer, Andre F., and Cabrales, Pedro

Subjects

MICROCIRCULATION, BLOOD gases, GOLDEN hamster, BLOOD volume, INFLAMMATION

Abstract

Unfortunately, during pathological conditions resulting in chronic hemolysis cell-free hemoglobin (Hb) is released into the circulation that releases free heme, resulting in several complications. One approach to prevent these toxicities is the administration of supplemental scavenger proteins, haptoglobin (Hp) and hemopexin (Hpx). The goal of this body of work is to objectively measure the levels of vascular reactivity and inflammatory profiles after an infusion of acellular hemoglobin in animals that were given a coadministration of PEGylated human apohemoglobin (PEG-apoHb), a hemopexin (Hpx)-mimetic that can scavenge free heme from hemoglobin, together with human plasma-derived Hp that can scavenge dimerized Hb. Using intravital microscopy, Golden Syrian hamsters instrumented with a dorsal window chamber were used to evaluate the in vivo effects of four experimental groups that were then challenged with a hypovolemic injection (10% of the animal's blood volume) of human Hb (hHb, 5 g/dL). The four experimental groups consisted of: 1) lactated Ringer's solution (control), 2) PEG-apoHb only, 3) Hp only, and 4) PEG-apoHb + Hp. The microvascular hemodynamics (diameter and flow) in arterioles and venules were recorded at baseline, 20 min after treatment, and 20 min after hHb challenge. Systemic parameters (blood pressure and heart rate), blood gases (pH, P co 2, and P o 2), blood parameters (Hb concentration and hematocrit), and multiorgan functionality/inflammation were also measured. Our results suggest that coadministration of PEG-apoHb + Hp as a booster before the infusion of acellular hemoglobin significantly prevented vasoconstriction in the microcirculation, significantly increased the number of functional capillaries, and significantly reduced inflammation. NEW & NOTEWORTHY: Coadministration of PEGylated human apohemoglobin (PEG-apoHb)—a hemopexin (Hpx) mimetic that can scavenge free heme—and human plasma-derived haptoglobin (Hp) that can scavenge hemoglobin (Hb), reduces microcirculatory dysfunction and cardiac and kidney inflammation in a Hb-challenge model. [ABSTRACT FROM AUTHOR]

Published

2024

17. Comparative Efficacy of Parenteral and Mucosal Recombinant Probiotic Vaccines Against SARS-CoV-2 and S. pneumoniae Infections in Animal Models.

Author

Leontieva, Galina, Kramskaya, Tatiana, Gupalova, Tatiana, Bormotova, Elena, Desheva, Yulia, Korzhevsky, Dmitry, Kirik, Olga, Koroleva, Irina, Borisevitch, Sergey, and Suvorov, Alexander

Subjects

VACCINE effectiveness, ORAL vaccines, HUMORAL immunity, GOLDEN hamster, IMMUNE response

Abstract

Background: The accumulation of specific IgG antibodies in blood serum is considered a key criterion for the effectiveness of vaccination. For several vaccine-preventable infections, quantitative indicators of the humoral response have been established, which, when reached, provide a high probability of protection against infection. The presence of such a formal correlate of vaccine effectiveness is crucial, for example, in organizing preventive measures and validating newly developed vaccines. However, can effective protection against infection occur when the level of serum antibodies is lower than that provided by parenteral vaccination? Will protection be sufficient if the same vaccine antigen is administered via mucosal membranes without achieving high levels of specific IgG circulating in the blood? Methods: In this study, we compared the immunogenicity and protective efficacy of parenteral and mucosal forms of vaccines in experimental animals, targeting infections caused by the SARS-CoV-2 coronavirus and Streptococcus pneumoniae. We investigated the protective properties of a fragment of the coronavirus S1 protein administered intramuscularly with an adjuvant and orally as part of the probiotic strain Enterococcus faecium L3 in a Syrian hamster model. A comparative assessment of the immunogenicity and protective efficacy of a recombinant tandem (PSP) of immunogenic peptides from S. pneumoniae surface proteins, administered either parenterally or orally, was performed in a Balb/c mouse model. Results: Both models demonstrated significant differences in the immunogenicity of parenteral and oral vaccine antigens, but comparable protective efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

18. Peripheral Serotonin Controls Dietary Fat Absorption and Chylomicron Secretion via 5-HT4 Receptor in Males.

Author

Raka, Fitore, Hoffman, Simon, Nady, Asal, Guan, Henry, Zhang, Rianna, Wang, Huaqing, Khan, Waliul I, and Adeli, Khosrow

Subjects

SEROTONIN uptake inhibitors, DIETARY fats, SEROTONIN receptors, TYPE 2 diabetes, GOLDEN hamster, CHYLOMICRONS

Abstract

Postprandial dyslipidemia is commonly present in people with type 2 diabetes and obesity and is characterized by overproduction of apolipoprotein B48-containing chylomicron particles from the intestine. Peripheral serotonin is emerging as a regulator of energy homeostasis with profound implications for obesity; however, its role in dietary fat absorption and chylomicron production is unknown. Chylomicron production was assessed in Syrian golden hamsters by administering an olive oil gavage and IP poloxamer to inhibit lipoprotein clearance. Administration of serotonin or selective serotonin reuptake inhibitor, fluoxetine, increased postprandial plasma triglyceride (TG) and TG-rich lipoproteins. Conversely, inhibiting serotonin synthesis pharmacologically by p-chlorophenylalanine (PCPA) led to a reduction in both the size and number of TG-rich lipoprotein particles, resulting in lower plasma TG and apolipoprotein B48 levels. The effects of PCPA occurred independently of gastric emptying and vagal afferent signaling. Inhibiting serotonin synthesis by PCPA led to increased TG within the intestinal lumen and elevated levels of TG and cholesterol in the stool when exposed to a high-fat/high-cholesterol diet. These findings imply compromised fat absorption, as evidenced by reduced lipase activity in the duodenum and lower levels of serum bile acids, which are indicative of intestinal bile acids. During the postprandial state, mRNA levels for serotonin receptors (5-HTRs) were upregulated in the proximal intestine. Administration of cisapride, a 5-HT4 receptor agonist, alleviated reductions in postprandial lipemia caused by serotonin synthesis inhibition, indicating that serotonin controls dietary fat absorption and chylomicron secretion via 5-HT4 receptor. [ABSTRACT FROM AUTHOR]

Published

2024

19. Phosphorylated Tau at T181 accumulates in the serum of hibernating Syrian hamsters and rapidly disappears after arousal.

Author

León-Espinosa, G., Murillo, A. M. M., Turegano-Lopez, M., DeFelipe, J., and Holgado, M.

Subjects

*NEUROFIBRILLARY tangles, *GOLDEN hamster, *TAU proteins, *ALZHEIMER'S disease, *BLOOD proteins, *NEURODEGENERATION

Abstract

The search for biomarkers for the early diagnosis of neurodegenerative diseases is a growing area. Numerous investigations are exploring minimally invasive and cost-effective biomarkers, with the detection of phosphorylated Tau (pTau) protein emerging as one of the most promising fields. pTau is the main component of the paired helical filaments found in the brains of Alzheimer's disease cases and serves as a precursor in the formation of neurofibrillary tangles (NFTs). Recent research has revealed that analysis of p-Tau181, p-Tau217 and p-Tau231 in blood may be an option for detecting the preclinical stage of Alzheimer's disease. In this study, we have analyzed the values of pTau 181 in the serum of Syrian hamsters during hibernation. Naturally, over the course of hibernation, these animals exhibit a reversible accumulation of pTau in the brain tissue, which rapidly disappears upon awakening. A biosensing system based on the interferometric optical detection method was used to measure the concentration of pTau181 protein in serum samples from Syrian hamsters. This method eliminates the matrix effect and amplifies the signal obtained by using silicon dioxide nanoparticles (SiO2 NPs) biofunctionalized with the αpTau181 antibody. Our results indicate a substantial increase in the serum concentration of pTau in threonine-181 during hibernation, which disappears completely 2–3 h after awakening. Investigating the mechanism by which pTau protein appears in the blood non-pathologically may enhance current diagnostic techniques. Furthermore, since this process is reversible, and no tangles are detected in the brains of hibernating hamsters, additional analysis may contribute to the discovery of improved biomarkers. Additionally, exploring drugs targeting pTau to prevent the formation of tangles or studying the outcomes of any pTau-targeted treatment could be valuable. [ABSTRACT FROM AUTHOR]

Published

2024

20. Therapeutic potential of mesenchymal stem cell‐derived extracellular vesicles in SARS‐CoV‐2 and H1N1 influenza‐induced acute lung injury.

Author

Lee, Jun Ho, Jeon, Hyungtaek, Lötvall, Jan, and Cho, Byong Seung

Subjects

*INFLUENZA A virus, H1N1 subtype, *ADULT respiratory distress syndrome, *MESENCHYMAL stem cells, *GOLDEN hamster, *EXTRACELLULAR vesicles, *HAMSTERS

Abstract

Mesenchymal stem cell (MSC)‐derived extracellular vesicles (EVs) have shown anti‐inflammatory potential in multiple inflammatory diseases. In the March 2022 issue of the Journal of Extracellular Vesicles, it was shown that EVs from human MSCs can suppress severe acute respiratory distress syndrome, coronavirus 2 (SARS‐CoV‐2) replication and can mitigate the production and release of infectious virions. We therefore hypothesized that MSC‐EVs have an anti‐viral effect in SARS‐CoV‐2 infection in vivo. We extended this question to ask whether also other respiratory viral infections could be treated by MSC‐EVs. Adipose stem cell‐derived EVs (ASC‐EVs) were isolated using tangential flow filtration from conditioned media obtained from a multi‐flask cell culture system. The effects of the ASC‐EVs were tested in Vero E6 cells in vitro. ASC‐EVs were also given i.v. to SARS‐CoV‐2 infected Syrian Hamsters, and H1N1 influenza virus infected mice. The ASC‐EVs attenuated SARS‐CoV‐2 virus replication in Vero E6 cells and reduced body weight and signs of lung injury in infected Syrian hamsters. Furthermore, ASC‐EVs increased the survival rate of influenza A‐infected mice and attenuated signs of lung injury. In summary, this study suggests that ASC‐EVs can have beneficial therapeutic effects in models of virus‐infection‐associated acute lung injury and may potentially be developed to treat lung injury in humans. [ABSTRACT FROM AUTHOR]

Published

2024

21. Efficacy of molnupiravir and interferon for the treatment of SARS‐CoV‐2 in golden Syrian hamster.

Author

Liu, Danlei, Leung, Ka‐Yi, Zhang, Ruiqi, Lam, Hoi‐Yan, Fan, Yujing, Xie, Xiaochun, Chan, Kwok‐Hung, and Hung, Ivan Fan‐Ngai

Subjects

GOLDEN hamster, PATHOLOGICAL physiology, MOLNUPIRAVIR, VIRAL replication, VIRAL load

Abstract

The mortality and hospitalization rate by COVID‐19 dropped significantly currently, but its seasonal outbreaks make antiviral treatment still vital. The mortality and hospitazation rate by COVID‐19 dropped significantly currently, but its seasonal ourbreaks make antiviral treatment still vital. In our study, syrian golden hamsters were treated with molnupiravir and interferons (IFNs) after SARS‐CoV‐2 infection. Their weight changes, pathological changes, virus replication and inflammation levels were evaluated. In the IFNs single treatment, only IFN‐α group reduced viral load (p < 0.05) and virus titer in hamster lungs. The TNF‐α expression decreased significantly in both IFNs treatment at 2dpi. Histological and immunofluorescence results showed lung damage in the IFNs groups were milder at 4dpi. In the molnupiravir/IFN‐α combination treatment, weight loss and virus replication in lung were significantly decreased in the mono‐molnupiravir group and combination group (p < 0.05), the expression of IL‐6, TNF‐α, IL‐1β and MIP‐1α also decreased significantly (p < 0.05), but the combination treatment was not more effective than the mono‐molnupiravir treatment. Histological and immunofluorescence results showed the lung damage and inflammation in mono‐molnupiravir and combination groups were milder. In summary, IFNs treatment had anti‐inflammatory effect against SARS‐CoV‐2, only IFN‐α showed a weak antiviral effect. Molnupiravir/IFN‐α combination treatment was effective against SARS‐CoV‐2 but was not superior to mono‐molnupiravir treatment. IFN‐α could be considered for immunocompromised patients to stimulate and activate early immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

22. Design, Immunogenicity and Preclinical Efficacy of the ChAdOx1.COVconsv12 Pan-Sarbecovirus T-Cell Vaccine.

Author

Wee, Edmund G.-T., Kempster, Sarah, Ferguson, Deborah, Hall, Joanna, Ham, Claire, Morris, Susan, Crook, Alison, Gilbert, Sarah C., Korber, Bette, Almond, Neil, and Hanke, Tomáš

Subjects

COVID-19 pandemic, GOLDEN hamster, T cells, SARS-CoV-2, COVID-19 vaccines

Abstract

During the COVID-19 pandemic, antibody-based vaccines targeting the SARS-CoV-2 spike glycoprotein were the focus for development because neutralizing antibodies were associated with protection against the SARS-CoV-2 infection pre-clinically and in humans. While deploying these spike-based vaccines saved millions of lives worldwide, it has become clear that the immunological mechanisms of protection against severe disease are multifaceted and involve non-neutralizing antibody components. Here, we describe a novel pan-sarbecovirus T-cell vaccine, ChAdOx1.COVconsv12, designed to complement and broaden the protection of spike vaccines. The vaccine immunogen COVconsv12 employs the two regions in the viral proteome most conserved among sarbecoviruses, which are delivered by replication-deficient vector ChAdOx1. It directs T cells towards epitopes shared among sarbecoviruses including evolving SARS-CoV-2 variants. Here, we show that ChAdOx1.COVconsv12 induced broad T-cell responses in the BALB/c and C57BL/6 mice. In the Syrian hamster challenge model, ChAdOx1.COVconsv12 alone did not protect against the SARS-CoV-2 infection, but when co-administered with 1/50th of the ChAdOx1 nCoV-19 spike vaccine protective dose, faster recovery and lower oral swab viral load were observed. Induction of CD8+ T cells may decrease COVID-19 severity and extend the T-cell response coverage of variants to match the known (and as yet unknown) members of the β-coronavirus family. [ABSTRACT FROM AUTHOR]

Published

2024

23. An attachment glycoprotein nanoparticle elicits broadly neutralizing antibodies and protects against lethal Nipah virus infection.

Author

Zhou, Dan, Cheng, Rao, Yao, Yanfeng, Zhang, Gan, Li, Xin, Wang, Bingjie, Wang, Yong, Yu, Feiyang, Yang, Shangyu, Liu, Hang, Gao, Ge, Peng, Yun, Chen, Miaoyu, Deng, Zengqin, and Zhao, Haiyan

Subjects

NIPAH virus, MONOCLONAL antibodies, VIRUS diseases, HENDRA virus, NANOPARTICLES, GOLDEN hamster

Abstract

Nipah virus (NiV) is a zoonotic emergent paramyxovirus that can cause severe encephalitis and respiratory infections in humans, with a high fatality rate ranging from 40% to 75%. Currently, there are no approved human vaccines or antiviral drugs against NiV. Here, we designed a ferritin-based self-assembling nanoparticle displaying the NiV G head domain on the surface (NiV G-ferritin) and assessed immune responses elicited by the soluble NiV G head domain (NiV sG) or NiV G-ferritin. Immunization with NiV G-ferritin or NiV sG conferred complete protection against lethal NiV challenge without detection of viral RNA in Syrian golden hamsters. Compared to NiV sG, NiV G-ferritin induced significantly faster, broader, and higher serum neutralizing responses against three pathogenic henipaviruses (NiV-Malaysia, NiV-Bangladesh, and Hendra virus). Moreover, NiV G-ferritin induced a durable neutralizing immunity in mice as antisera potently inhibited NiV infection even after six months of the third immunization. Additionally, we isolated a panel of 27 NiV G-binding monoclonal antibodies (mAbs) from NiV G-ferritin immunized mice and found that these mAbs targeted four distinct antigenic sites on NiV G head domain with two sites that have not been defined previously. Notably, 25 isolated mAbs have potent neutralizing activity with 50% inhibitory concentrations less than 10 ng/mL against NiV pseudovirus. Collectively, these findings provide new insights into the immunogenicity of NiV G protein and reveal that NiV G-ferritin is a safe and highly effective vaccine candidate against Nipah virus infection. [ABSTRACT FROM AUTHOR]

Published

2024

24. Characterization of Humoral Responses to Nipah Virus Infection in the Syrian Hamster Model of Disease.

Author

Scholte, Florine E M, Rodriguez, Sergio E, Welch, Stephen R, Davies, Katherine A, Genzer, Sarah C, Coleman-McCray, JoAnn D, Harmon, Jessica R, Sorvillo, Teresa E, Lo, Michael K, Karaaslan, Elif, Bergeron, Eric, Montgomery, Joel M, Spengler, Jessica R, and Spiropoulou, Christina F

Subjects

*GOLDEN hamster, *NIPAH virus, *IMMUNE response, *HUMORAL immunity, *ANTIBODY formation

Abstract

Nipah virus (NiV) is a highly pathogenic paramyxovirus. The Syrian hamster model recapitulates key features of human NiV disease and is a critical tool for evaluating antivirals and vaccines. Here we describe longitudinal humoral immune responses in NiV-infected Syrian hamsters. Samples were obtained 1–28 days after infection and analyzed by ELISA, neutralization, and Fc-mediated effector function assays. NiV infection elicited robust antibody responses against the nucleoprotein and attachment glycoprotein. Levels of neutralizing antibodies were modest and only detectable in surviving animals. Fc-mediated effector functions were mostly observed in nucleoprotein-targeting antibodies. Antibody levels and activities positively correlated with challenge dose. [ABSTRACT FROM AUTHOR]

Published

2024

25. Unveiling the Enigmatic nature of six neglected Amazonian Leishmania (Viannia) species using the hamster model: Virulence, Histopathology and prospection of LRV1.

Author

Soares, Rodrigo Pedro, Fontes, Igor Campos, Dutra-Rêgo, Felipe, Rugani, Jeronimo Nunes, Moreira, Paulo Otávio L., da Matta, Vânia Lúcia Ribeiro, Flores, Gabriela Venícia Araujo, Pacheco, Carmen Maria Sandoval, de Andrade, Andrey José, da Costa-Ribeiro, Magda Clara Vieira, Shaw, Jeffrey Jon, and Laurenti, Márcia Dalastra

Subjects

*GOLDEN hamster, *PERITONEAL macrophages, *FLIES as carriers of disease, *SAND flies, *PRINCIPAL components analysis

Abstract

American tegumentary leishmaniasis (ATL) is highly endemic in the Amazon basin and occurs in all South American countries, except Chile and Uruguay. Most Brazilian ATL cases are due to Leishmania (Viannia) braziliensis, however other neglected Amazonian species are being increasingly reported. They belong to the subgenus L. (Viannia) and information on suitable models to understand immunopathology are scarce. Here, we explored the use of the golden hamster Mesocricetus auratus and its macrophages as a model for L. (Viannia) species. We also studied the interaction of parasite glycoconjugates (LPGs and GIPLs) in murine macrophages. The following strains were used: L. (V.) braziliensis (MHOM/BR/2001/BA788), L. (V.) guyanensis (MHOM/BR/85/M9945), L. (V.) shawi (MHOM/BR/96/M15789), L. (V.) lindenbergi (MHOM/BR/98/M15733) and L. (V.) naiffi (MDAS/BR/79/M5533). In vivo infections were initiated by injecting parasites into the footpad and were followed up at 20- and 40-days PI. Parasites were mixed with salivary gland extract (SGE) from wild-captured Nyssomyia neivai prior to in vivo infections. Animals were euthanized for histopathological evaluation of the footpads, spleen, and liver. The parasite burden was evaluated in the skin and draining lymph nodes. In vitro infections used resident peritoneal macrophages and THP-1 monocytes infected with all species using a MOI (1:10). For biochemical studies, glycoconjugates (LPGs and GIPLs) were extracted, purified, and biochemically characterized using fluorophore-assisted carbohydrate electrophoresis (FACE). They were functionally evaluated after incubation with macrophages from C57BL/6 mice and knockouts (TLR2-/- and TLR4-/-) for nitric oxide (NO) and cytokine/chemokine production. All species, except L. (V.) guyanensis, failed to generate evident macroscopic lesions 40 days PI. The L. (V.) guyanensis lesions were swollen but did not ulcerate and microscopically were characterized by an intense inflammatory exudate. Despite the fact the other species did not produce visible skin lesions there was no or mild pro-inflammatory infiltration at the inoculation site and parasites survived in the hamster skin/lymph nodes and even visceralized. Although none of the species caused severe disease in the hamster, they differentially infected peritoneal macrophages in vitro. LPGs and GIPLs were able to differentially trigger NO and cytokine production via TLR2/TLR4 and TLR4, respectively. The presence of a sidechain in L. (V.) lainsoni LPG (type II) may be responsible for its higher proinflammatory activity. After Principal Component analyses using all phenotypic features, the clustering of L. (V.) lainsoni was separated from all the other L. (Viannia) species. We conclude that M. auratus was a suitable in vivo model for at least four dermotropic L. (Viannia) species. However, in vitro studies using peritoneal cells are a suitable alternative for understanding interactions of the six L. (Viannia) species used here. LRV1 presence was found in L. (V.) guyanensis and L. (V.) shawi with no apparent correlation with virulence in vitro and in vivo. Finally, parasite glycoconjugates were able to functionally trigger various innate immune responses in murine macrophages via TLRs consistent with their inflammatory profile in vivo. Author summary: American Tegumentary Leishmaniasis (ATL) is one of the major neglected diseases occurring in Brazil and the Amazon contributes with a wide range of species that are not completely known. These little-known species are transmitted to rural workers entering the forest during lumbering, mining, and latex extraction activities and rarely in peri domestic situation. Infection occurs by the bite of infected sand flies in different environments and biomes. One of the major constraints in studying L. (Viannia) species is the difficulty of finding suitable animal and cellular models to investigate their biology. The mouse model is not a suitable model for most L. (Viannia) species. However, hamsters were considered a good model for L. (V.) braziliensis. In the search for a better model for some neglected dermotropic Amazonian Leishmania, we evaluated interactions in vivo in the hamster and in vitro in its macrophages. All species infected cells in vitro, but hamsters could only be considered as a suitable in vivo model for L. (V.) guyanensis. Importantly the glycoconjugates of the six L. (Viannia) species were very proinflammatory, showing various levels of macrophage activation. This paper opens possibilities of determining more accurately the taxonomic position of L. (V.) lainsoni within the subgenus L. (Viannia). [ABSTRACT FROM AUTHOR]

Published

2024

26. Antigenic cartography using variant-specific hamster sera reveals substantial antigenic variation among Omicron subvariants.

Author

Mühlemann, Barbara, Trimpert, Jakob, Walper, Felix, Schmidt, Marie L., Jansen, Jenny, Schroeder, Simon, Jeworowski, Lara M., Beheim-Schwarzbach, Jörn, Bleicker, Tobias, Niemeyer, Daniela, Richter, Anja, Adler, Julia M., Vidal, Ricardo Martin, Langner, Christine, Vladimirova, Daria, Wilks, Samuel H., Smith, Derek J., Voß, Mathias, Paltzow, Lea, and Christophersen, Christina Martínez

Subjects

*SARS-CoV-2, *SARS-CoV-2 Omicron variant, *GOLDEN hamster, *IMMUNE serums, *COVID-19 vaccines

Abstract

Severe acute respiratory syndrome Coronavirus 2 (SARS-CoV-2) has developed substantial antigenic variability. As the majority of the population now has pre-existing immunity due to infection or vaccination, the use of experimentally generated animal immune sera can be valuable for measuring antigenic differences between virus variants. Here, we immunized Syrian hamsters by two successive infections with one of nine SARS-CoV-2 variants. Their sera were titrated against 16 SARS-CoV-2 variants, and the resulting titers were visualized using antigenic cartography. The antigenic map shows a condensed cluster containing all pre-Omicron variants (D614G, Alpha, Delta, Beta, Mu, and an engineered B.1+E484K variant) and considerably more diversity among a selected panel of Omicron subvariants (BA.1, BA.2, BA.4/BA.5, the BA.5 descendants BF.7 and BQ.1.18, the BA.2.75 descendant BN.1.3.1, the BA.2-derived recombinants XBB.2 and EG.5.1, and the BA.2.86 descendant JN.1). Some Omicron subvariants were as antigenically distinct from each other as the wildtype is from the Omicron BA.1 variant. Compared to titers measured in human sera, titers in hamster sera are of higher magnitude, show less fold change, and result in a more compact antigenic map topology. The results highlight the potential of sera from hamsters for the continued antigenic characterization of SARS-CoV-2. [ABSTRACT FROM AUTHOR]

Published

2024

27. Longitudinal Monitoring of the Effects of Anti-Adenoviral Treatment Regimens in a Permissive In Vivo Model.

Author

Tollefson, Ann E., Cline-Smith, Anna, Spencer, Jacqueline F., Ying, Baoling, Reyna, Dawn M., Lipka, Elke, James, Scott H., and Toth, Karoly

Subjects

*GOLDEN hamster, *VIRAL replication, *IMMUNOCOMPROMISED patients, *PHARMACODYNAMICS, *HAMSTERS, *ADENOVIRUSES

Abstract

Adenovirus infections of immunocompromised patients can cause life-threatening disseminated disease. While there are presently no drugs specifically approved to treat these infections, there are several compounds that showed efficacy against adenovirus in preclinical studies. For any such compound, low toxicity is an essential requirement. As cumulative drug effects can accentuate pathology, especially in patients with other morbidities, it is important to limit antiviral exposure to what is absolutely necessary. This is achievable by monitoring the virus burden of the patients and administering antivirals to suppress virus replication to a non-pathogenic level. We modeled such a system using Syrian hamsters infected with a replication-competent adenovirus vector, in which luciferase expression is coupled to virus replication. We found that virus replication could be followed in vivo in the same animal by repeated measurement of luciferase expression. To test the utility of an interrupted treatment regimen, we used NPP-669 and valganciclovir, two antiviral compounds with high and moderate anti-adenoviral efficacy, respectively. We found that short-term treatment of adenovirus-infected hamsters at times of peak virus replication can prevent virus-associated pathology. Thus, we believe that this animal model can be used to model different treatment regimens for anti-adenoviral compounds. [ABSTRACT FROM AUTHOR]

Published

2024

28. Mucosal immunization with ChAd-SARS-CoV-2-S prevents sequential transmission of SARS-CoV-2 to unvaccinated hamsters.

Author

Darling, Tamarand L., Harastani, Houda H., Joshi, Astha, Bricker, Traci L., Soudani, Nadia, Seehra, Kuljeet, Hassan, Ahmed O., Diamond, Michael S., and Boon, Adrianus C. M.

Subjects

*SARS-CoV-2, *HAMSTERS, *GOLDEN hamster, *VACCINATION, *IMMUNIZATION, *VACCINE effectiveness, *VACCINATION status

Abstract

COVID-19 vaccines have successfully reduced severe disease and death after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. Nonetheless, COVID-19 vaccines are variably effective in preventing transmission and symptomatic SARS-CoV-2 infection. Here, we evaluated the impact of mucosal or intramuscular vaccine immunization on airborne infection and transmission of SARS-CoV-2 in Syrian hamsters. Immunization of the primary contact hamsters with a mucosal chimpanzee adenoviral-vectored vaccine (ChAd-CoV-2-S), but not intramuscular messenger RNA (mRNA) vaccine, reduced infectious virus titers ~100-fold and 100,000-fold in the upper and lower respiratory tract of the primary contact hamster following SARS-CoV-2 exposure. This reduction in virus titer in the mucosal immunized contact animals was sufficient to eliminate subsequent transmission to vaccinated and unvaccinated hamsters. In contrast, sequential transmission occurred after systemic immunization with the mRNA vaccine. Thus, immunization with a mucosal COVID-19 vaccine protects against cycles of respiratory transmission of SARS-CoV-2 and can potentially limit the community spread of the virus. [ABSTRACT FROM AUTHOR]

Published

2024

29. SARS-CoV-2 variants divergently infect and damage cardiomyocytes in vitro and in vivo.

Author

Mok, Bobo Wing-Yee, Kwok, Maxwell, Li, Hung Sing, Ling, Lowell, Lai, Angel, Yan, Bin, Law, Cherie Tsz-Yiu, Yeung, Chui Him, Zhang, Anna Jinxia, Tam, Rachel Chun-Yee, Kukic, Anja, Cremin, Conor J., Zhang, Yajie, Long, Teng, Kang, Zhisen, Luo, Ruibang, Leung, Kam Tong, Li, Albert M., Lui, Grace, and Tsui, Stephen Kwok-Wing

Subjects

*SARS-CoV-2, *COVID-19, *SARS-CoV-2 Omicron variant, *GOLDEN hamster, *HEART diseases, *VIRAL tropism

Abstract

Background: COVID-19 can cause cardiac complications and the latter are associated with poor prognosis and increased mortality. SARS-CoV-2 variants differ in their infectivity and pathogenicity, but how they affect cardiomyocytes (CMs) is unclear. Methods: The effects of SARS-CoV-2 variants were investigated using human induced pluripotent stem cell-derived (hiPSC-) CMs in vitro and Golden Syrian hamsters in vivo. Results: Different variants exhibited distinct tropism, mechanism of viral entry and pathology in the heart. Omicron BA.2 most efficiently infected and injured CMs in vitro and in vivo, and induced expression changes consistent with increased cardiac dysfunction, compared to other variants tested. Bioinformatics and upstream regulator analyses identified transcription factors and network predicted to control the unique transcriptome of Omicron BA.2 infected CMs. Increased infectivity of Omicron BA.2 is attributed to its ability to infect via endocytosis, independently of TMPRSS2, which is absent in CMs. Conclusions: In this study, we reveal previously unknown differences in how different SARS-CoV-2 variants affect CMs. Omicron BA.2, which is generally thought to cause mild disease, can damage CMs in vitro and in vivo. Our study highlights the need for further investigations to define the pathogenesis of cardiac complications arising from different SARS-CoV-2 variants. [ABSTRACT FROM AUTHOR]

Published

2024

30. Apoptosis and pyroptosis in the nasal mucosa of Syrian hamster during SARS-CoV-2 infection and reinfection.

Author

Li, Heng, Zhao, Xin, Zhang, Xinglong, Zheng, Huiwen, Wang, Yibin, Hou, Jinghan, Li, Jing, Zhao, Yurong, Peng, Shasha, Li, Yingyan, Zhang, Xin, Zhang, Yifan, Yang, Jinling, Zhang, Zihan, Shi, Haijing, and Liu, Longding

Subjects

NASAL mucosa, GOLDEN hamster, PYROPTOSIS, APOPTOSIS, RESPIRATORY mucosa, BLEPHAROPTOSIS

Abstract

In SARS-CoV-2 infection, it has been observed that viral replication lasts longer in the nasal mucosa than in the lungs, despite the presence of a high viral load at both sites. In hamsters, we found that the nasal mucosa exhibited a mild inflammatory response and minimal pathological injuries, whereas the lungs displayed a significant inflammatory response and severe injuries. The underlying cellular events may be induced by viral infection in three types of cell death: apoptosis, pyroptosis, and necroptosis. Our findings indicate that apoptosis was consistently activated during infection in the nasal mucosa, and the levels of apoptosis were consistent with the viral load. On the other hand, pyroptosis and a few instances of necroptosis were observed only on 7 dpi in the nasal mucosa. In the lungs, however, both pyroptosis and apoptosis were prominently activated on 3 dpi, with lower levels of apoptosis compared to the nasal mucosa. Interestingly, in reinfection, obvious viral load and apoptosis in the nasal mucosa were detected on 3 dpi, while no other forms of cell death were detected. We noted that the inflammatory reactions and pathological injuries in the nasal mucosa were milder, indicating that apoptosis may play a role in promoting lower inflammatory reactions and milder pathological injuries and contribute to the generation of long-term viral replication in the nasal mucosa. Our study provides valuable insights into the differences in cellular mechanisms during SARS-CoV-2 infection and highlights the potential significance of apoptosis regulation in the respiratory mucosa for controlling viral replication. [ABSTRACT FROM AUTHOR]

Published

2024

31. Comparison of uridine and N1-methylpseudouridine mRNA platforms in development of an Andes virus vaccine.

Author

Kuzmin, Ivan V., Soto Acosta, Ruben, Pruitt, Layne, Wasdin, Perry T., Kedarinath, Kritika, Hernandez, Keziah R., Gonzales, Kristyn A., Hill, Kharighan, Weidner, Nicole G., Mire, Chad, Engdahl, Taylor B., Moon, Woohyun J., Popov, Vsevolod, Crowe Jr, James E., Georgiev, Ivelin S., Garcia-Blanco, Mariano A., Abbott, Robert K., and Bukreyev, Alexander

Subjects

VACCINE effectiveness, VIRAL vaccines, GOLDEN hamster, IMMUNE response, GERMINAL centers

Abstract

The rodent-borne Andes virus (ANDV) causes a severe disease in humans. We developed an ANDV mRNA vaccine based on the M segment of the viral genome, either with regular uridine (U-mRNA) or N1-methylpseudouridine (m1Ψ-mRNA). Female mice immunized by m1Ψ-mRNA developed slightly greater germinal center (GC) responses than U-mRNA-immunized mice. Single cell RNA and BCR sequencing of the GC B cells revealed similar levels of activation, except an additional cluster of cells exhibiting interferon response in animals vaccinated with U-mRNA but not m1Ψ-mRNA. Similar immunoglobulin class-switching and somatic hypermutations were observed in response to the vaccines. Female Syrian hamsters were immunized via a prime–boost regimen with two doses of each vaccine. The titers of glycoprotein-binding antibodies were greater for U-mRNA construct than for m1Ψ-mRNA construct; however, the titers of ANDV-neutralizing antibodies were similar. Vaccinated animals were challenged with a lethal dose of ANDV, along with a naïve control group. All control animals and two animals vaccinated with a lower dose of m1Ψ-mRNA succumbed to infection whereas other vaccinated animals survived without evidence of virus replication. The data demonstrate the development of a protective vaccine against ANDV and the lack of a substantial effect of m1Ψ modification on immunogenicity and protection in rodents. Modified nucleosides are often used in mRNA vaccines and can affect protein expression and immunogenicity. Here, the authors compare M segment based Andes virus mRNA vaccines, either with regular uridine or N1-methylpseudouridine, and characterize immune response and protection in rodents. [ABSTRACT FROM AUTHOR]

Published

2024

32. Comparative analysis of optional hunting behavior in Cricetinae hamsters using the data compression approach.

Author

Levenets, J., Panteleeva, S., Reznikova, Zh., Gureeva, A., Kupriyanov, V., Feoktistova, N., and Surov, A.

Subjects

*HAMSTERS, *GOLDEN hamster, *COMPARATIVE studies, *HUNTING, *CRICETIDAE, *COMPARATIVE method, *DATA compression, *BEHAVIORAL assessment

Abstract

Research into the hunting behavior in members of the Cricetidae family offers an opportunity to reveal what changes in the predatory behavioral sequences occur when a rodent species shifts from an omnivorous to a predatory lifestyle. The study tests the following hypotheses: are there phylogenetic differences in the divergence of species' predatory lifestyles in hamsters or do ecological factors lead to shaping their hunting behavior? We applied the data compression approach for performing comparative analysis of hunting patterns as biological "texts." The study presents a comparative analysis of hunting behaviors in five Cricetinae species, focusing on the new data obtained for the desert hamster Phodopus roborovskii whose behavior has never been studied before. The hunting behavior of P. roborovskii appeared to be the most variable one. In contrast, behavioral sequences in P. campbelli and Allocricetulus curtatus display more significant order and predictability of behavior during hunting. Optional hunting behavior in the most ancient species P. roborovskii displayed similarities with obligate patterns in "young" Allocricetulus species. It thus turned out to be the most advanced hunter among members of the Phodopus genus. Differences in hunting sequences among Phodopus representatives suggest that the hunting behavior of these species, despite its optional mode, was subject to selection during species splitting within the genus. These results did not reveal the role played by phylogenetic differences in the divergence of species' predatory lifestyles. They suggested that ecological conditions are the main factors in speciation of the hunting behavior in hamsters. [ABSTRACT FROM AUTHOR]

Published

2024

33. Development of a live attenuated vaccine candidate for equid alphaherpesvirus 1 control: a step towards efficient protection.

Author

Yue Hu, Guiling Wu, Qinrui Jia, Baozhong Zhang, Wencheng Sun, Ruixue Sa, Siyu Zhang, Weifan Cai, Jarhen, Duoliang Ran, and Jianhua Liu

Subjects

GOLDEN hamster, VACCINES, CLASSICAL swine fever, INFECTION prevention, SYMPTOMS, VACCINATION

Abstract

Equid alphaherpesvirus 1 (EqAHV1) is a viral pathogen known to cause respiratory disease, neurologic syndromes, and abortion storms in horses. Currently, there are no vaccines that provide complete protection against EqAHV1. Marker vaccines and the differentiation of infected and vaccinated animals (DIVA) strategy are effective for preventing and controlling outbreaks but have not been used for the prevention of EqAHV1 infection. Glycoprotein 2 (gp2), located on the envelope of viruses (EqAHV1), exhibits high antigenicity and functions as amolecular marker for DIVA. In this study, a series of EqAHV1 mutants with deletion of gp2 along with other virulence genes (TK, UL24/TK, gI/gE) were engineered. The mutant viruses were studied in vitro and then in an in vivo experiment using Golden Syrian hamsters to assess the extent of viral attenuation and the immune response elicited by the mutant viruses in comparison to the wild-type (WT) virus. Compared with the WT strain, the YM2019 Δgp2, ΔTK/gp2, and αUL24/TK/gp2 strains exhibited reduced growth in RK-13 cells, while the DgI/gE/gp2 strain exhibited significantly impaired proliferation. The YM2019 Δgp2 strain induced clinical signs and mortality in hamsters. In contrast, the YM2019 ΔTK/gp2 and αUL24/TK/gp2 variants displayed diminished pathogenicity, causing no observable clinical signs or fatalities. Immunization with nasal vaccines containing YM2019 ΔTK/gp2 and αUL24/TK/gp2 elicited a robust immune response in hamsters. In particular, compared with the vaccine containing the ΔTK/gp2 strain, the vaccine containing the αUL24/TK/gp2 strain demonstrated enhanced immune protection upon challenge with the WT virus. Furthermore, an ELISA for gp2 was established and refined to accurately differentiate between infected and vaccinated animals. These results confirm that the αUL24/TK/gp2 strain is a safe and effective live attenuated vaccine candidate for controlling EqAHV1 infection. [ABSTRACT FROM AUTHOR]

Published

2024

34. Adapting Real-Time Lung Function Measurements for SARS-CoV-2 Infection Studies in Syrian Hamsters.

Author

de Jong, Rineke, Nuiten, Wout, ter Heide, Albertjan, Hamstra, Wilfred, Vreman, Sandra, Oreshkova, Nadia, Wiese, Katrin E., and Gerhards, Nora M.

Subjects

*GOLDEN hamster, *SARS-CoV-2, *ANIMAL mechanics, *VIRUS diseases, *VIDEO recording, *HAMSTERS

Abstract

Pulmonary function examinations are critical to assess respiratory disease severity in patients. In preclinical rodent models of viral respiratory infections, however, disease is frequently evaluated based on virological, pathological and/or surrogate clinical parameters, which are not directly associated with lung function. To bridge the gap between preclinical and clinical readouts, we aimed to apply unrestrained whole-body plethysmography (WBP) measurements in a SARS-CoV-2 Syrian hamster challenge model. While WBP measurements are frequently used for preclinical research in mice and rats, results from studies in hamsters are still limited. During unrestrained WBP measurements, we obtained highly variable breathing frequency values outside of the normal physiological range for hamsters. Importantly, we observed that animal movements were recorded as breaths during WBP measurements. By limiting animal movement through either mechanical or chemical restraint, we improved the reliability of the lung function readout and obtained breathing frequencies that correlated with clinical signs when comparing two different variants of SARS-CoV-2 post-inoculation. Simultaneously, however, new sources of experimental variation were introduced by the method of restraint, which demands further optimalization of WBP measurements in Syrian hamsters. We concluded that WBP measurements are a valuable refinement either in combination with video recordings or if average values of measurements lasting several hours are analyzed. [ABSTRACT FROM AUTHOR]

Published

2024

35. A Double Hit of Social and Economic Stress in Mice Precipitates Changes in Decision-Making Strategies.

Author

Durand-de Cuttoli, Romain, Martínez-Rivera, Freddyson J., Li, Long, Minier-Toribio, Angélica, Dong, Zhe, Cai, Denise J., Russo, Scott J., Nestler, Eric J., and Sweis, Brian M.

Subjects

*SOCIAL defeat, *LIFE change events, *MICE, *GOLDEN hamster, *SUBJECTIVE well-being (Psychology), *DECISION making, *TIME management

Abstract

Economic stress can serve as a second hit for people who have already accumulated a history of adverse life experiences. How one recovers from a setback is a core feature of resilience but is seldom captured in animal studies. We challenged mice in a novel 2-hit stress model by first exposing them to chronic social defeat stress and then testing adaptations to increasing reward scarcity on a neuroeconomic task. Mice were tested across months on the Restaurant Row task, during which they foraged daily for their primary source of food while on a limited time budget in a closed-economy system. An abrupt transition into a reward-scarce environment elicits an economic challenge, precipitating a drop in food intake and body weight to which mice must respond to survive. We found that mice with a history of social stress mounted a robust behavioral response to this economic challenge that was achieved through a complex redistribution of time allocation among competing opportunities. Interestingly, we found that mice with a history of social defeat displayed changes in the development of decision-making policies during the recovery process that are important not only for ensuring food security necessary for survival but also prioritizing subjective value and that these changes emerged only for certain types of choices. These findings indicate that an individual's capacity to recover from economic challenges depends on that person's prior history of stress and can affect multiple decision-making aspects of subjective well-being, thus highlighting a motivational balance that may be altered in stress-related disorders such as depression. [ABSTRACT FROM AUTHOR]

Published

2024

36. Immunogenicity and Protective Efficacy of a Single Intranasal Dose Vectored Vaccine Based on Sendai Virus (Moscow Strain) against SARS-CoV-2 Variant of Concern.

Author

Kochneva, Galina V., Kudrov, Gleb A., Zainutdinov, Sergei S., Shulgina, Irina S., Shipovalov, Andrei V., Zaykovskaya, Anna V., Borgoyakova, Mariya B., Starostina, Ekaterina V., Bodnev, Sergei A., Sivolobova, Galina F., Grazhdantseva, Antonina A., Ivkina, Daria I., Zadorozhny, Alexey M., Karpenko, Larisa I., and P'yankov, Oleg V.

Subjects

SARS-CoV-2 Delta variant, SENDAI virus, INTRANASAL administration, GOLDEN hamster, SARS-CoV-2

Abstract

The mouse paramyxovirus Sendai, which is capable of limited replication in human bronchial epithelial cells without causing disease, is well suited for the development of vector-based intranasal vaccines against respiratory infections, including SARS-CoV-2. Using the Moscow strain of the Sendai virus, we developed a vaccine construct, Sen-Sdelta(M), which expresses the full-length spike (S) protein of the SARS-CoV-2 delta variant. A single intranasal delivery of Sen-Sdelta(M) to Syrian hamsters and BALB/c mice induced high titers of virus-neutralizing antibodies specific to the SARS-CoV-2 delta variant. A significant T-cell response, as determined by IFN-γ ELISpot and ICS methods, was also demonstrated in the mouse model. Mice and hamsters vaccinated with Sen-Sdelta(M) were well protected against SARS-CoV-2 challenge. The viral load in the lungs and nasal turbinates, measured by RT-qPCR and TCID50 assay, decreased dramatically in vaccinated groups. The most prominent effect was revealed in a highly sensitive hamster model, where no tissue samples contained detectable levels of infectious SARS-CoV-2. These results indicate that Sen-Sdelta(M) is a promising candidate as a single-dose intranasal vaccine against SARS-CoV-2, including variants of concern. [ABSTRACT FROM AUTHOR]

Published

2024

37. Evaluating Molecular Mechanism of Viral Inhibition of Aerosolized Smart Nano-Enabled Antiviral Therapeutic (SNAT) on SARS-CoV-2-Infected Hamsters.

Author

Bauer, Anais N., Williams, John F., Pokhrel, Lok R., Garcia, Selena, Majumdar, Niska, Eells, Jeffrey B., Cook, Paul P., and Akula, Shaw M.

Subjects

SARS-CoV-2, TRANSMISSION electron microscopy, SILVER nanoparticles, VIRAL proteins, VIRAL replication, GOLDEN hamster, HAMSTERS

Abstract

Smart Nano-enabled Antiviral Therapeutic (SNAT) is a promising nanodrug that previously demonstrated efficacy in preclinical studies to alleviate SARS-CoV-2 pathology in hamsters. SNAT comprises taxoid (Tx)-decorated amino (NH2)-functionalized near-atomic size positively charged silver nanoparticles (Tx–[NH2-AgNPs]). Herein, we aimed to elucidate the molecular mechanism of the viral inhibition and safety of aerosolized SNAT treatment in SARS-CoV-2-infected golden Syrian hamsters. High-resolution transmission electron microscopy (HR-TEM) coupled with energy dispersive spectroscopy (EDS) and ELISAs showed SNAT binds directly to the SARS-CoV-2 virus by interacting with intact spike (S) protein, specifically to S2 subunit. SNAT (≥1 µg/mL) treatment significantly lowered SARS-CoV-2 infections of Calu-3 cells. Extraction-free whole transcriptome assay was used to detect changes in circulatory micronome in hamsters treated intranasally with SNAT (two doses of 10 µg/mL of 2 mL each administered 24 h apart). Uninfected hamsters treated with SNAT had altered circulatory concentrations of 18 microRNAs (8 miRNAs upregulated, 10 downregulated) on day 3 post-treatment compared to uninfected controls. SNAT-induced downregulation of miR-141-3p and miR-200b-3p may reduce viral replication and inflammation by targeting Ythdf2 and Slit2, respectively. Further, SNAT treatment significantly lowered IL-6 expression in infected hamster lungs compared to untreated infected hamsters. Taken together, we demonstrate that SNAT binds directly to SARS-CoV-2 via the S protein to prevent viral entry and propose a model by which SNAT alters the cellular miRNA-directed milieu to promote antiviral cellular processes and neutralize infection. Our results provide insights into the use of low-dose intranasally delivered SNAT in treating SARS-CoV-2 infections in a hamster model. [ABSTRACT FROM AUTHOR]

Published

2024

38. AZD3152 neutralizes SARS-CoV-2 historical and contemporary variants and is protective in hamsters and well tolerated in adults.

Author

Cai, Yingyun, Diallo, Seme, Rosenthal, Kim, Ren, Kuishu, Flores, Daniel J., Dippel, Andrew, Oganesyan, Vaheh, van Dyk, Nydia, Chen, Xiaoru, Cantu, Erin, Choudhary, Rakesh, Sulikowski, Michal, Adissu, Hibret, Chawla, Bhavna, Kar, Swagata, Liu, Chang, Dijokaite-Guraliuc, Aiste, Mongkolsapaya, Juthathip, Rajan, Saravanan, and Loo, Yueh-Ming

Subjects

SARS-CoV-2, CORONAVIRUS diseases, SARS-CoV-2 Omicron variant, COVID-19, HAMSTERS, GOLDEN hamster

Abstract

The evolution of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has resulted in variants that can escape neutralization by therapeutic antibodies. Here, we describe AZD3152, a SARS-CoV-2–neutralizing monoclonal antibody designed to provide improved potency and coverage against emerging variants. AZD3152 binds to the back left shoulder of the SARS-CoV-2 spike protein receptor binding domain and prevents interaction with the human angiotensin-converting enzyme 2 receptor. AZD3152 potently neutralized a broad panel of pseudovirus variants, including the currently dominant Omicron variant JN.1 but has reduced potency against XBB subvariants containing F456L. In vitro studies confirmed F456L resistance and additionally identified T415I and K458E as escape mutations. In a Syrian hamster challenge model, prophylactic administration of AZD3152 protected hamsters from weight loss and inflammation-related lung pathologies and reduced lung viral load. In the phase 1 sentinel safety cohort of the ongoing SUPERNOVA study (ClinicalTrials.gov: NCT05648110), a single 600-mg intramuscular injection of AZD5156 (containing 300 mg each of AZD3152 and cilgavimab) was well tolerated in adults through day 91. Observed serum concentrations of AZD3152 through day 91 were similar to those observed with cilgavimab and consistent with predictions for AZD7442, a SARS-CoV-2–neutralizing antibody combination of cilgavimab and tixagevimab, in a population pharmacokinetic model. On the basis of its pharmacokinetic characteristics, AZD3152 is predicted to provide durable protection against symptomatic coronavirus disease 2019 caused by susceptible SARS-CoV-2 variants, such as JN.1, in humans. Editor's summary: Monoclonal antibody (mAb) therapies for SARS-CoV-2 were an essential component of the treatment toolbox for the first few years of the pandemic. Unfortunately, contemporary SARS-CoV-2 variants have evolved to escape these previously approved mAb therapies, leading to suspension of their use. For most individuals, this is acceptable, because we have our own antibodies generated by vaccination and prior infection. However, for immunocompromised individuals who were receiving mAb prophylaxis, this once again increases their risk of severe COVID-19. To address this gap in patient care, Cai et al. developed and tested AZD3152, a SARS-CoV-2 mAb capable of neutralizing contemporary strains of the virus. The authors found that prophylactic administration of AZD3152 was protective in a hamster model and had favorable pharmacokinetic profiles in humans. These data support further development of AZD3152 and next-generation SARS-CoV-2 mAbs. —Courtney Malo [ABSTRACT FROM AUTHOR]

Published

2024

39. Dynamics of Trypanosoma cruzi infection in hamsters and novel association with progressive motor dysfunction.

Author

Langston, Harry, Fortes Francisco, Amanda, Doidge, Ciaran, Roberts, Chrissy H., Khan, Archie A., Jayawardhana, Shiromani, Taylor, Martin C., Kelly, John M., and Lewis, Michael D.

Subjects

*TRYPANOSOMA cruzi, *DIGESTIVE system diseases, *GOLDEN hamster, *HAMSTERS, *CHAGAS' disease, *TRICHOMONIASIS, *Q fever

Abstract

Chagas disease is a zoonosis caused by the protozoan parasite Trypanosoma cruzi. Clinical outcomes range from long-term asymptomatic carriage to cardiac, digestive, neurological and composite presentations that can be fatal in both acute and chronic stages of the disease. Studies of T. cruzi in animal models, principally mice, have informed our understanding of the biological basis of this variability and its relationship to infection and host response dynamics. Hamsters have higher translational value for many human infectious diseases, but they have not been well developed as models of Chagas disease. We transposed a real-time bioluminescence imaging system for T. cruzi infection from mice into female Syrian hamsters (Mesocricetus auratus). This enabled us to study chronic tissue pathology in the context of spatiotemporal infection dynamics. Acute infections were widely disseminated, whereas chronic infections were almost entirely restricted to the skin and subcutaneous adipose tissue. Neither cardiac nor digestive tract disease were reproducible features of the model. Skeletal muscle had only sporadic parasitism in the chronic phase, but nevertheless displayed significant inflammation and fibrosis, features also seen in mouse models. Whereas mice had normal locomotion, all chronically infected hamsters developed hindlimb muscle hypertonia and a gait dysfunction resembling spastic diplegia. With further development, this model may therefore prove valuable in studies of peripheral nervous system involvement in Chagas disease. Author summary: Chagas disease is a caused by American trypanosomes (Trypanosoma cruzi). These are microscopic parasites that circulate in wild mammals across most of the Americas and can also be transmitted to humans. Much of our knowledge about how T. cruzi causes Chagas disease comes from studies of infections in mice, but the data do not capture the full range of clinical outcomes seen in humans. For many other pathogens the hamster has proved to be a valuable model of human infections. We therefore aimed to apply some of the latest advances in T. cruzi infection imaging technology to studies in this alternative experimental model. In the early stages, parasites were widely disseminated throughout the body, but after several months parasites became almost entirely restricted to the skin. Hamsters did not show signs of heart or gut disease, which are common in humans, but they did develop skeletal muscle pathology. Stiffness in the hindlimbs grew progressively worse and resulted in a visibly altered gait, suggestive of damage to the nervous system. With further development, this model may therefore prove valuable in studies of peripheral nervous system involvement in Chagas disease. [ABSTRACT FROM AUTHOR]

Published

2024

40. Non-classical animal models for studying adrenal diseases: advantages, limitations, and implications for research.

Author

Bilyalova, Alina, Bilyalov, Airat, Filatov, Nikita, Shagimardanova, Elena, Kiyasov, Andrey, Vorontsova, Maria, and Gusev, Oleg

Subjects

*ADRENAL glands, *ADRENAL diseases, *FERRET, *ADRENOGENITAL syndrome, *ANIMAL models in research, *GUINEA pigs, *GOLDEN hamster

Abstract

The study of adrenal disorders is a key component of scientific research, driven by the complex innervation, unique structure, and essential functions of the adrenal glands. This review explores the use of non-traditional animal models for studying congenital adrenal hyperplasia. It highlights the advantages, limitations, and relevance of these models, including domestic ferrets, dogs, guinea pigs, golden hamsters, pigs, and spiny mice. We provide a detailed analysis of the histological structure, steroidogenesis pathways, and genetic characteristics of these animal models. The morphological and functional similarities between the adrenal glands of spiny mice and humans highlight their potential as an important avenue for future research. [ABSTRACT FROM AUTHOR]

Published

2024

41. A highly effective ferritin-based divalent nanoparticle vaccine shields Syrian hamsters against lethal Nipah virus.

Author

Chunhong Yin, Yan Feng Yao, Peipei Yang, Hang Liu, Ge Gao, Yun Peng, Miaoyu Chen, Mingqing Lu, Xuekai Zhang, Weiwei Guo, Zihan Zhang, Xue Hu, Zhiming Yuan, and Chao Shan

Subjects

NIPAH virus, GOLDEN hamster, NANOPARTICLES, RABIES virus, PARAMYXOVIRUSES, HENIPAVIRUSES, VACCINES, AUJESZKY'S disease virus

Abstract

The Nipah virus (NiV), a highly deadly bat-borne paramyxovirus, poses a substantial threat due to recurrent outbreaks in specific regions, causing severe respiratory and neurological diseases with high morbidity. Two distinct strains, NiV-Malaysia (NiV-M) and NiV-Bangladesh (NiV-B), contribute to outbreaks in different geographical areas. Currently, there are no commercially licensed vaccines or drugs available for prevention or treatment. In response to this urgent need for protection against NiV and related henipaviruses infections, we developed a novel homotypic virus-like nanoparticle (VLP) vaccine co-displaying NiV attachment glycoproteins (G) from both strains, utilizing the self-assembling properties of ferritin protein. In comparison to the NiV G subunit vaccine, our nanoparticle vaccine elicited significantly higher levels of neutralizing antibodies and provided complete protection against a lethal challenge with NiV infection in Syrian hamsters. Remarkably, the nanoparticle vaccine stimulated the production of antibodies that exhibited superior cross-reactivity to homologous or heterologous henipavirus. These findings underscore the potential utility of ferritin-based nanoparticle vaccines in providing both broad-spectrum and long-term protection against NiV and emerging zoonotic henipaviruses challenges. [ABSTRACT FROM AUTHOR]

Published

2024

42. The role of pannexin/purinergic signaling in intervascular communication from capillaries during skeletal muscle contraction in male Golden hamsters.

Author

Lamb, Iain R., Novielli‐Kuntz, Nicole M., and Murrant, Coral L.

Subjects

*MUSCLE contraction, *GOLDEN hamster, *SKELETAL muscle, *CAPILLARIES, *SIGNALS & signaling

Abstract

We sought to determine the physiological relevance of pannexin/purinergic‐dependent signaling in mediating conducted vasodilation elicited by capillary stimulation through skeletal muscle contraction. Using hamster cremaster muscle and intravital microscopy we stimulated capillaries through local muscle contraction while observing the associated upstream arteriole. Capillaries were stimulated with muscle contraction at low and high contraction (6 and 60CPM) and stimulus frequencies (4 and 40 Hz) in the absence and presence of pannexin blocker mefloquine (MEF; 10−5 M), purinergic receptor antagonist suramin (SUR 10−5 M) and gap‐junction uncoupler halothane (HALO, 0.07%) applied between the capillary stimulation site and the upstream arteriolar observation site. Conducted vasodilations elicited at 6CPM were inhibited by HALO while vasodilations at 60CPM were inhibited by MEF and SUR. The conducted response elicited at 4 Hz was inhibited by MEF while the vasodilation at 40 Hz was unaffected by any blocker. Therefore, upstream vasodilations resulting from capillary stimulation via muscle contraction are dependent upon a pannexin/purinergic‐dependent pathway that appears to be stimulation parameter‐dependent. Our data highlight a physiological importance of the pannexin/purinergic pathway in facilitating communication between capillaries and upstream arteriolar microvasculature and, consequently, indicating that this pathway may play a crucial role in regulating blood flow in response to skeletal muscle contraction. [ABSTRACT FROM AUTHOR]

Published

2024

43. Identification of Aichivirus in a Pet Rat (Rattus norvegicus) in Italy.

Author

Alfano, Flora, Lucibelli, Maria Gabriella, Serra, Francesco, Levante, Martina, Rea, Simona, Gallo, Amalia, Petrucci, Federica, Pucciarelli, Alessia, Picazio, Gerardo, Monini, Marina, Di Bartolo, Ilaria, d'Ovidio, Dario, Santoro, Mario, De Carlo, Esterina, Fusco, Giovanna, and Amoroso, Maria Grazia

Subjects

*RATS, *DOMESTIC animals, *PET shops, *INTRODUCED species, *HEPATITIS A, *RATTUS norvegicus, *GOLDEN hamster

Abstract

Simple Summary: Dozens of species of small exotic mammals, such as chinchillas, golden hamsters, Java squirrels, Mongolian gerbils, mice, rats, African hedgehogs, and sugar gliders, are kept as pets globally. These exotic companion mammals are potential reservoirs for maintaining and transmitting zoonotic pathogens. Using molecular assays, our study aimed to investigate the occurrence of some potential zoonotic viruses in various small exotic mammals kept as pets in Italy. Our findings show that aichivirus (AiV) was further characterized as murine kobuvirus-1 in a rat (Rattus norvegicus). To the best of our knowledge, this is the first study reporting the detection of AiV in rodents in Italy. Our results also revealed the absence of other viruses investigated while highlighting the importance of ongoing monitoring of infectious agents in these increasingly common pets to prevent the spread of new potential zoonotic pathogens. We investigated the occurrence of eight potential zoonotic viruses in 91 exotic companion mammals from pet shops in southern Italy via real-time PCR and end-point PCR. The animals were screened for aichivirus, sapovirus, astrovirus, hepatitis A, noroviruses (GI and GII), rotavirus, circovirus, and SARS-CoV-2. Among the nine species of exotic pets studied, only one rat tested positive for aichivirus. The high sequence similarity to a murine kobuvirus-1 strain previously identified in China suggests that the virus may have been introduced into Italy through the importation of animals from Asia. Since exotic companion mammals live in close contact with humans, continuous sanitary monitoring is crucial to prevent the spread of new pathogens among domestic animals and humans. Further investigations on detecting and typing zoonotic viruses are needed to identify emerging and re-emerging viruses to safeguard public health. [ABSTRACT FROM AUTHOR]

Published

2024

44. Dimorphic Regulation of the MafB Gene by Sex Steroids in Hamsters, Mesocricetus auratus.

Author

Ramos, Luis

Subjects

*GOLDEN hamster, *GENETIC regulation, *HAMSTERS, *GENE expression, *TRANSCRIPTION factors, *PANCREAS, *ESTRUS

Abstract

Simple Summary: MafB protein is indispensable for fetal testis morphogenesis, and it is important for the differentiation of immune cells such as macrophages. However, our understanding of MafB in rodents remains limited. In this study, MafB cDNA was cloned, and MafB expression was assessed in hamsters (Mesocricetus auratus), including gene regulation mechanisms by sex steroids in endocrine and non-endocrine tissues. Furthermore, bioinformatic tools were used to evaluate molecular characterization, three-dimensional structure, and phylogenetic relationships. The study results suggest a possible participation of MafB in the differentiation of Harderian gland (HG) macrophages and pancreatic β cells. MafB is a transcription factor that regulates macrophage differentiation. Macrophages are a traditional feature of the hamster Harderian gland (HG); however, studies pertaining to MafB expression in the HG are scant. Here, the full-length cDNA of the MafB gene in hamsters was cloned and sequenced. Molecular characterization revealed that MafB encodes a protein containing 323 amino acids with a DNA-binding domain, a transactivation domain, and a leucine zipper domain. qPCR assays indicated that MafB was expressed in different tissues of both sexes. The highest relative expression levels in endocrine tissues were identified in the pancreas. Gonadectomy in male hamsters was associated with significantly higher mRNA levels in the HG; replacement with dihydrotestosterone restored mRNA expression. The HG in male hamsters contained twofold more MafB mRNA than the HG of female hamsters. Adrenals revealed similar mRNA relative expression levels during the estrous cycle. The estrous phase was associated with higher mRNA levels in the ovary. A significantly up-regulated expression and sexual dimorphism of MafB was found in the pancreas. Therefore, MafB in the HG may play an active role in the macrophage differentiation required for phagocytosis activity and intraocular repair. Additionally, sex steroids appear to strongly influence the MafB expression in the HG and pancreas. These studies highlight the probable biological importance of MafB in immunological defense and pancreatic β cell regulation. [ABSTRACT FROM AUTHOR]

Published

2024

45. Usnic acid alleviates inflammatory responses and induces apoptotic signaling through inhibiting NF‐ĸB expressions in human oral carcinoma cells.

Author

Azhamuthu, Theerthu, Kathiresan, Suresh, Senkuttuvan, Ilanchitchenni, Asath, Nihal Ahamed Abulkalam, Ravichandran, Pugazhendhi, and Vasu, Rajeswari

Subjects

*ANTHRACENE, *INFLAMMATION, *NUCLEAR fragmentation, *GOLDEN hamster, *URIC acid, *REACTIVE oxygen species, *CELL death

Abstract

Usnic acid (UA) is a unique bioactive substance in lichen with potential anticancer properties. Recently, we have reported that UA can reduce 7,12‐dimethylbenz[a] anthracene‐induced oral carcinogenesis by inhibiting oxidative stress, inflammation, and cell proliferation in a male golden Syrian hamster in vivo model. The present study aims to explore the relevant mechanism of cell death induced by UA on human oral carcinoma (KB) cell line in an in vitro model. We found that UA can induce apoptosis (cell death) in KB cells by decreasing cell viability, increasing the production of reactive oxygen species (ROS), depolarizing mitochondrial membrane potential (MMP) levels, causing nuclear fragmentation, altering apoptotic morphology, and causing excessive DNA damage. Additionally, UA inhibits the expression of Bcl‐2, a protein that promotes cell survival, while increasing the expression of p53, Bax, Cytochrome‐c, Caspase‐9, and 3 proteins in KB cells. UA also inhibits the expression of nuclear factor‐κB (NF‐κB), a protein that mediates the activation of pro‐inflammatory cytokines such as TNF‐α and IL‐6, in KB cells. Furthermore, UA promotes apoptosis by enhancing the mitochondrial‐mediated apoptotic mechanism through oxidative stress, depletion of cellular antioxidants, and an inflammatory response. Ultimately, the findings of this study suggest that UA may have potential as an anticancer therapeutic agent for oral cancer treatments. Significance statement: Usnic acid (UA) has been found to inhibit the growth of cancerous cells and induce the generation of ROS (reactive oxygen species) by activating apoptotic signaling pathways in KB cells. More importantly, the present study suggests that UA Prevent cytotoxicity depletion of antioxidants, induce apoptotic molecules, and downregulation of the inflammatory response in KB cells. Due to its antioxidant effects, UA could potentially be used to develop new anticarcinoma agents, making it a promising novel therapeutic candidate for treating human oral cancer. [ABSTRACT FROM AUTHOR]

Published

2024

46. Coxsackievirus A7 and Enterovirus A71 Significantly Reduce SARS-CoV-2 Infection in Cell and Animal Models.

Author

Svyatchenko, Victor A., Legostaev, Stanislav S., Lutkovskiy, Roman Y., Protopopova, Elena V., Ponomareva, Eugenia P., Omigov, Vladimir V., Taranov, Oleg S., Ternovoi, Vladimir A., Agafonov, Alexander P., and Loktev, Valery B.

Subjects

*SARS-CoV-2, *HAMSTERS, *GOLDEN hamster, *COVID-19 vaccines, *ANIMAL models in research, *PATHOLOGICAL physiology

Abstract

In this study, we investigated the features of co-infection with SARS-CoV-2 and the enterovirus vaccine strain LEV8 of coxsackievirus A7 or enterovirus A71 for Vero E6 cells and Syrian hamsters. The investigation of co-infection with SARS-CoV-2 and LEV-8 or EV-A71 in the cell model showed that a competitive inhibitory effect for these viruses was especially significant against SARS-CoV-2. Pre-infection with enteroviruses in the animals caused more than a 100-fold decrease in the levels of SARS-CoV-2 virus replication in the respiratory tract and more rapid clearance of infectious SARS-CoV-2 from the lower respiratory tract. Co-infection with SARS-CoV-2 and LEV-8 or EV-A71 also reduced the severity of clinical manifestations of the SARS-CoV-2 infection in the animals. Additionally, the histological data illustrated that co-infection with strain LEV8 of coxsackievirus A7 decreased the level of pathological changes induced by SARS-CoV-2 in the lungs. Research into the chemokine/cytokine profile demonstrated that the studied enteroviruses efficiently triggered this part of the antiviral immune response, which is associated with the significant inhibition of SARS-CoV-2 infection. These results demonstrate that there is significant viral interference between the studied strain LEV-8 of coxsackievirus A7 or enterovirus A71 and SARS-CoV-2 in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

47. Use of chemotherapy in Syrian hamsters (Mesocricetus auratus) with epitheliotropic T‐cell lymphoma: Two cases (2021–2022).

Author

Chan, Shih Chieh, McDermott, Colin T., and Wyre, Nicole

Subjects

GOLDEN hamster, T-cell lymphoma, CUTANEOUS T-cell lymphoma, CANCER chemotherapy, SYMPTOMS, T cells

Abstract

Epitheliotropic cutaneous T‐cell lymphoma (ETCL) is rarely described in golden or Syrian hamsters (Mesocricetus auratus), and no effective treatments or outcomes have previously been published. This study includes two cases of epitheliotropic cutaneous T‐cell lymphoma that were diagnosed via skin biopsy. Clinical presentation, diagnosis, treatment and outcome were reported. Both cases received chemotherapy, including prednisolone, lomustine, L‐asparaginase and chlorambucil. One Syrian hamster that received prednisolone (0.5 mg/kg per os every 24 hours) and chlorambucil (0.4 mg/kg per os every 24 hours) survived 276 days after diagnosis. Another Syrian hamster treated with prednisolone (1 mg/kg per os every 24 hours) survived 81 days after diagnosis. The effectiveness of lomustine and L‐asparaginase remains unknown for Syrian hamsters, and more studies are needed to determine appropriate dose ranges for chlorambucil. The combination of chlorambucil (0.4 mg/kg per os every 24 hours) and prednisolone (0.5–1 mg/kg per os every 24 hours) may assist in managing epitheliotropic cutaneous T‐cell lymphoma in Syrian hamsters. [ABSTRACT FROM AUTHOR]

Published

2024

48. Establishment and application of a surrogate model for human Ebola virus disease in BSL-2 laboratory.

Author

Wanying Yang, Wujian Li, Wujie Zhou, Shen Wang, Weiqi Wang, Zhenshan Wang, Na Feng, Tiecheng Wang, Ying Xie, Yongkun Zhao, Feihu Yan, and Xianzhu Xia

Subjects

EBOLA virus disease, EBOLA virus, GOLDEN hamster, VESICULAR stomatitis, HEMORRHAGIC diseases, SURROGATE mothers, ELECTROCONVULSIVE therapy

Abstract

The Ebola virus (EBOV) is a member of the Orthoebolavirus genus, Filoviridae family, which causes severe hemorrhagic diseases in humans and non-human primates (NHPs), with a case fatality rate of up to 90%. The development of countermeasures against EBOV has been hindered by the lack of ideal animal models, as EBOV requires handling in biosafety level (BSL)-4 facilities. Therefore, accessible and convenient animal models are urgently needed to promote prophylactic and therapeutic approaches against EBOV. In this study, a recombinant vesicular stomatitis virus expressing Ebola virus glycoprotein (VSV-EBOV/GP) was constructed and applied as a surrogate virus, establishing a lethal infection in hamsters. Following infection with VSV-EBOV/GP, 3-week-old female Syrian hamsters exhibited disease signs such as weight loss, multi-organ failure, severe uveitis, high viral loads, and developed severe systemic diseases similar to those observed in human EBOV patients. All animals succumbed at 2-3 days post-infection (dpi). Histopathological changes indicated that VSV-EBOV/GP targeted liver cells, suggesting that the tissue tropism of VSV-EBOV/GP was comparable to wild-type EBOV (WT EBOV). Notably, the pathogenicity of the VSV-EBOV/GP was found to be species-specific, age-related, gender-associated, and challenge route-dependent. Subsequently, equine anti-EBOV immunoglobulins and a subunit vaccine were validated using this model. Overall, this surrogate model represents a safe, effective, and economical tool for rapid preclinical evaluation of medical countermeasures against EBOV under BSL-2 conditions, which would accelerate technological advances and breakthroughs in confronting Ebola virus disease. [ABSTRACT FROM AUTHOR]

Published

2024

49. Fasting before Intra-Gastric Dosing with Antigen Improves Intestinal Humoral Responses in Syrian Hamsters.

Author

Wood, Liam, Hughes, Jaime, Trussell, Mark, Bishop, Anne L., and Griffin, Ruth

Subjects

GOLDEN hamster, GASTROPARESIS, ORAL vaccines, SMALL intestine, INTESTINES, ORAL drug administration

Abstract

Simple Summary: Vaccines prevent approximately 4 million deaths annually worldwide but around 3 times this number still die each year from infectious diseases. Most vaccines are injected, generating immune responses in the bloodstream but injected vaccines may be less effective against gut bugs that cause localised infections such as Clostridioides difficile. Oral vaccines have the advantage of promoting immune responses within the small intestine, protecting the gut. To develop an oral vaccine against C. difficile, the conventional animal model is the hamster as it develops similar clinical symptoms to humans. A challenge for oral vaccines is overcoming the harsh conditions of the stomach; however, capsules can be used that resist stomach acidity and dissolve once in the small intestine. We previously tested a protein vaccine candidate for responses in the small intestine following oral administration to hamsters using capsules. As the responses were variable, we questioned whether delivery could be improved after fasting hamsters. Using the same protein, we compared intestinal responses in fasted versus fed groups. The fasted group demonstrated significantly greater responses suggesting improved delivery of the capsules to the intestine. Our refined immunisation method can now be applied by the growing number of groups worldwide using the hamster model to test oral vaccines. Oral vaccines, unlike injected, induce intestinal secretory immunoglobulin A (sIgA) mimicking our natural defense against gut pathogens. We previously observed sIgA responses after administering the Clostridioides difficile colonisation factor CD0873 orally in enteric capsules to hamsters. Enteric-coated capsules are designed to resist dissolution in the stomach and disintegrate only at the higher pH of the small intestine. However, the variable responses between animals led us to speculate suboptimal transit of antigens to the small intestine. The rate of gastric emptying is a controlling factor in the passage of oral drugs for subsequent availability in the small intestine for absorption. Whilst in humans, food delays gastric emptying, in rats, capsules can empty quicker from fed stomachs than from fasted. To test in hamsters if fasting improves the delivery of antigens to the small intestine, as inferred from the immune responses generated, 24 animals were dosed intragastrically with enteric capsules containing recombinant CD0873. Twelve hamsters were fasted for 12 h prior to each dose and the other 12 fed. Significantly higher sIgA titres, with significantly greater bacterial-adherence-blocking activity, were detected in small intestinal lavages in the fasted group. We conclude that fasting in hamsters improves intestinal delivery leading to more robust responses. [ABSTRACT FROM AUTHOR]

Published

2024

50. Syrian Hamsters Model Does Not Reflect Human-like Disease after Aerosol Exposure to Encephalitic Alphaviruses.

Author

Gardner, Christina L., Erwin-Cohen, Rebecca A., Lewis, Bridget S., Bakken, Russell R., Honnold, Shelley P., Glass, Pamela J., and Burke, Crystal W.

Subjects

GOLDEN hamster, GUINEA pigs, HAMSTERS, ALPHAVIRUS diseases, ALPHAVIRUSES, ENCEPHALITIS viruses, ANIMAL disease models

Abstract

Venezuelan (VEE), eastern (EEE), and western (WEE) equine encephalitis viruses are encephalitic New World alphaviruses that cause periodic epizootic and epidemic outbreaks in horses and humans that may cause severe morbidity and mortality. Currently there are no FDA-licensed vaccines or effective antiviral therapies. Each year, there are a limited number of human cases of encephalitic alphaviruses; thus, licensure of a vaccine or therapeutic would require approval under the FDA animal rule. Approval under the FDA animal rule requires the disease observed in the animal model to recapitulate what is observed in humans. Currently, initial testing of vaccines and therapeutics is performed in the mouse model. Unfortunately, alphavirus disease manifestations in a mouse do not faithfully recapitulate human disease; the VEEV mouse model is lethal whereas in humans VEEV is rarely lethal. In an effort to identify a more appropriate small animal model, we evaluated hamsters in an aerosol exposure model of encephalitic alphavirus infection. The pathology, lethality, and viremia observed in the infected hamsters was inconsistent with what is observed in NHP models and humans. These data suggest that hamsters are not an appropriate model for encephalitic alphaviruses to test vaccines or potential antiviral therapies. [ABSTRACT FROM AUTHOR]

Published

2024