Your search keyword '"Joel V. Chua"' showing total 10 results

1. Evaluation of Four Humanized NOD-Derived Mouse Models for Dengue Virus-2 Infection

Author

Hernando Gutierrez-Barbosa, Sandra Medina-Moreno, Federico Perdomo-Celis, Harry Davis, Joel V. Chua, and Juan C. Zapata

Subjects

humanized mice, dengue, NSG, EXL, SGM3, NCG, Medicine

Abstract

Dengue is a significant public health problem with no specific viral treatment. One of the main challenges in studying dengue is the lack of adequate animal models recapitulating human immune responses. Most studies on humanized mice use NOD-scid IL2R gamma null (NSG) mice, which exhibit poor hematopoiesis for some cell populations. This study compares three humanized (hu) NOD-derived mouse models for dengue virus-2 (DENV-2) infection in the context of human cytokine expression. Three mouse strains (hu-NSG, hu-EXL, and hu-SGM3) received xenotransplants of human CD34+ fetal cord blood cells from a single donor, and one mouse strain received human peripheral blood mononuclear cells (hu-SGM3-PBMCs). All models exhibited infectious viruses in blood confirmed by plaque assay, but mice expressing human cytokines showed higher viremia compared to conventional NSG mice. The hu-SGM3-PBMCs model developed lethal infections, showing a significant increase in viremia and clinical signs. A detectable human cytokine response was observed in all the DENV-2-infected humanized mouse models. In conclusion, humanized NOD-derived mouse models expressing human cytokines offer a relevant platform for the study of dengue pathogenesis and antiviral therapies.

Published

2024

2. RNA Interference Therapeutics for Chronic Hepatitis B: Progress, Challenges, and Future Prospects

Author

Laura Sneller, Christine Lin, Angie Price, Shyam Kottilil, and Joel V. Chua

Subjects

hepatitis B virus, chronic hepatitis B, RNA interference, small interfering RNA, hepatitis B surface antigens, covalently closed circular DNA, Biology (General), QH301-705.5

Abstract

Chronic hepatitis B (CHB) is a global health challenge that can result in significant liver-related morbidity and mortality. Despite a prophylactic vaccine being available, patients already living with CHB often must engage in lifelong therapy with nucleoside analogues. However, the potential of RNA interference (RNAi) therapeutics as a promising avenue for CHB treatment is being explored. RNAi, particularly using small interfering RNA (siRNA), targets viral RNA that can be used to inhibit hepatitis B virus (HBV) replication. Several candidates are currently being studied and have exhibited varying success in reducing hepatitis B surface antigen (HBsAg) levels, with some showing sustained HBsAg loss after cessation of therapy. The dynamic evolution of RNAi therapy presents a promising trajectory for the development of effective and sustained treatments for CHB. This review highlights recent findings on RNAi therapeutics, including modifications for stability, various delivery vectors, and specific candidates currently in development.

Published

2024

3. A Comparison of Lymphoid and Myeloid Cells Derived from Human Hematopoietic Stem Cells Xenografted into NOD-Derived Mouse Strains

Author

Hernando Gutierrez-Barbosa, Sandra Medina-Moreno, Federico Perdomo-Celis, Harry Davis, Carolina Coronel-Ruiz, Juan C. Zapata, and Joel V. Chua

Subjects

humanization, humanized mouse model, xenograft, CD34, NSG, NCG, Biology (General), QH301-705.5

Abstract

Humanized mice are an invaluable tool for investigating human diseases such as cancer, infectious diseases, and graft-versus-host disease (GvHD). However, it is crucial to understand the strengths and limitations of humanized mice and select the most appropriate model. In this study, we describe the development of the human lymphoid and myeloid lineages using a flow cytometric analysis in four humanized mouse models derived from NOD mice xenotransplanted with CD34+ fetal cord blood from a single donor. Our results showed that all murine strains sustained human immune cells within a proinflammatory environment induced by GvHD. However, the Hu-SGM3 model consistently generated higher numbers of human T cells, monocytes, dendritic cells, mast cells, and megakaryocytes, and a low number of circulating platelets showing an activated profile when compared with the other murine strains. The hu-NOG-EXL model had a similar cell development profile but a higher number of circulating platelets with an inactivated state, and the hu-NSG and hu-NCG developed low frequencies of immune cells compared with the other models. Interestingly, only the hu-SGM3 and hu-EXL models developed mast cells. In conclusion, our findings highlight the importance of selecting the appropriate humanized mouse model for specific research questions, considering the strengths and limitations of each model and the immune cell populations of interest.

Published

2023

4. Immune-Mediated Pathogenesis in Dengue Virus Infection

Author

Arshi Khanam, Hector Gutiérrez-Barbosa, Kirsten E. Lyke, and Joel V. Chua

Subjects

dengue virus, host immune response, inflammation, exosomes, immunopathogenesis, Microbiology, QR1-502

Abstract

Dengue virus (DENV) infection is one of the major public health concerns around the globe, especially in the tropical regions of the world that contribute to 75% percent of dengue cases. While the majority of DENV infections are mild or asymptomatic, approximately 5% of the cases develop a severe form of the disease that is mainly attributed to sequential infection with different DENV serotypes. The severity of dengue depends on many immunopathogenic mechanisms involving both viral and host factors. Emerging evidence implicates an impaired immune response as contributing to disease progression and severity by restricting viral clearance and inducing severe inflammation, subsequently leading to dengue hemorrhagic fever and dengue shock syndrome. Moreover, the ability of DENV to infect a wide variety of immune cells, including monocytes, macrophages, dendritic cells, mast cells, and T and B cells, further dysregulates the antiviral functions of these cells, resulting in viral dissemination. Although several risk factors associated with disease progression have been proposed, gaps persist in the understanding of the disease pathogenesis and further investigations are warranted. In this review, we discuss known mechanisms of DENV-mediated immunopathogenesis and its association with disease progression and severity.

Published

2022

5. Current Trends and Limitations in Dengue Antiviral Research

Author

Juliet O. Obi, Hernando Gutiérrez-Barbosa, Joel V. Chua, and Daniel J. Deredge

Subjects

antiviral targets, dengue virus, flavivirus, NS5, nucleoside inhibitors, non-nucleoside inhibitors, Medicine

Abstract

Dengue is the most prevalent arthropod-borne viral disease worldwide and affects approximately 2.5 billion people living in over 100 countries. Increasing geographic expansion of Aedes aegypti mosquitoes (which transmit the virus) has made dengue a global health concern. There are currently no approved antivirals available to treat dengue, and the only approved vaccine used in some countries is limited to seropositive patients. Treatment of dengue, therefore, remains largely supportive to date; hence, research efforts are being intensified for the development of antivirals. The nonstructural proteins, 3 and 5 (NS3 and NS5), have been the major targets for dengue antiviral development due to their indispensable enzymatic and biological functions in the viral replication process. NS5 is the largest and most conserved nonstructural protein encoded by flaviviruses. Its multifunctionality makes it an attractive target for antiviral development, but research efforts have, this far, not resulted in the successful development of an antiviral targeting NS5. Increase in structural insights into the dengue NS5 protein will accelerate drug discovery efforts focused on NS5 as an antiviral target. In this review, we will give an overview of the current state of therapeutic development, with a focus on NS5 as a therapeutic target against dengue.

Published

2021

6. Evolution of Nipah Virus Infection: Past, Present, and Future Considerations

Author

Naomi Hauser, Alexis C. Gushiken, Shivakumar Narayanan, Shyam Kottilil, and Joel V. Chua

Subjects

Nipah virus, Nipah virus infection, zoonoses, emerging infection, henipaviruses, Medicine

Abstract

Nipah virus (NiV) is a zoonotic paramyxovirus of the Henipavirus genus first identified in Malaysia in 1998. Henipaviruses have bat reservoir hosts and have been isolated from fruit bats found across Oceania, Asia, and Africa. Bat-to-human transmission is thought to be the primary mode of human NiV infection, although multiple intermediate hosts are described. Human infections with NiV were originally described as a syndrome of fever and rapid neurological decline following contact with swine. More recent outbreaks describe a syndrome with prominent respiratory symptoms and human-to-human transmission. Nearly annual outbreaks have been described since 1998 with case fatality rates reaching greater than 90%. The ubiquitous nature of the reservoir host, increasing deforestation, multiple mode of transmission, high case fatality rate, and lack of effective therapy or vaccines make NiV’s pandemic potential increasingly significant. Here we review the epidemiology and microbiology of NiV as well as the therapeutic agents and vaccines in development.

Published

2021

7. Dengue Infections in Colombia: Epidemiological Trends of a Hyperendemic Country

Author

Hernando Gutierrez-Barbosa, Sandra Medina-Moreno, Juan C. Zapata, and Joel V. Chua

Subjects

dengue virus, endemic diseases, epidemiology, Colombia, Medicine

Abstract

Dengue is a major public health problem in hyperendemic countries like Colombia, the understanding of the epidemiological trends is important for the development of efficient public health policies. We conducted a systematic review of the epidemiologic data on dengue in Colombia from 1971 to 2020. A total of 375 relevant citations were identified, 36 of which fulfilled the inclusion criteria. The data of dengue and severe dengue cases, infection fatality rate, and serotype distribution were used to understand and identify gaps in the epidemiological knowledge in Colombia. The epidemiology of dengue in this country was characterized by five main outbreaks in 1998, 2002, 2010, 2013, and 2019 with high fatality rates in comparison with the average values reported in the Americas. The case fatality rate of severe dengue exceeded 2% and all four serotypes co-circulate throughout the country with some regional variations. Overall, the behavior of dengue in Colombia is influenced by multiple factors including seasonal temperature variation and socioeconomic conditions. Additionally, the most important barriers in the epidemiological surveillance of dengue may be due to the insufficient notification rate in some regions and the low active search for the circulation of different serotypes.

Published

2020

8. Humanized Mice in Dengue Research: A Comparison with Other Mouse Models

Author

Carolina Coronel-Ruiz, Hernando Gutiérrez-Barbosa, Sandra Medina-Moreno, Myriam L. Velandia-Romero, Joel V. Chua, Jaime E. Castellanos, and Juan C. Zapata

Subjects

denv, dengue mouse models, humanized mice, immune response, pathogenesis, vaccine, drug development, Medicine

Abstract

Dengue virus (DENV) is an arbovirus of the Flaviviridae family and is an enveloped virion containing a positive sense single-stranded RNA genome. DENV causes dengue fever (DF) which is characterized by an undifferentiated syndrome accompanied by fever, fatigue, dizziness, muscle aches, and in severe cases, patients can deteriorate and develop life-threatening vascular leakage, bleeding, and multi-organ failure. DF is the most prevalent mosquito-borne disease affecting more than 390 million people per year with a mortality rate close to 1% in the general population but especially high among children. There is no specific treatment and there is only one licensed vaccine with restricted application. Clinical and experimental evidence advocate the role of the humoral and T-cell responses in protection against DF, as well as a role in the disease pathogenesis. A lot of pro-inflammatory factors induced during the infectious process are involved in increased severity in dengue disease. The advances in DF research have been hampered by the lack of an animal model that recreates all the characteristics of this disease. Experiments in nonhuman primates (NHP) had failed to reproduce all clinical signs of DF disease and during the past decade, humanized mouse models have demonstrated several benefits in the study of viral diseases affecting humans. In DENV studies, some of these models recapitulate specific signs of disease that are useful to test drugs or vaccine candidates. However, there is still a need for a more complete model mimicking the full spectrum of DENV. This review focuses on describing the advances in this area of research.

Published

2020

9. Evolution of Nipah Virus Infection: Past, Present, and Future Considerations

Author

Shivakumar Narayanan, Shyam Kottilil, Joel V Chua, Naomi Hauser, and Alexis C Gushiken

Subjects

medicine.medical_specialty, Life on Land, Nipah virus, henipaviruses, lcsh:Medicine, Review, Nipah Virus Infection, Vaccine Related, Nipah virus infection, Biodefense, Pandemic, Case fatality rate, Epidemiology, medicine, 2.2 Factors relating to the physical environment, Aetiology, emerging infection, General Immunology and Microbiology, biology, Transmission (medicine), Prevention, lcsh:R, Public Health, Environmental and Occupational Health, Outbreak, biology.organism_classification, Virology, zoonoses, Emerging Infectious Diseases, Infectious Diseases, Immunization, Infection, Biotechnology, Henipavirus

Abstract

Nipah virus (NiV) is a zoonotic paramyxovirus of the Henipavirus genus first identified in Malaysia in 1998. Henipaviruses have bat reservoir hosts and have been isolated from fruit bats found across Oceania, Asia, and Africa. Bat-to-human transmission is thought to be the primary mode of human NiV infection, although multiple intermediate hosts are described. Human infections with NiV were originally described as a syndrome of fever and rapid neurological decline following contact with swine. More recent outbreaks describe a syndrome with prominent respiratory symptoms and human-to-human transmission. Nearly annual outbreaks have been described since 1998 with case fatality rates reaching greater than 90%. The ubiquitous nature of the reservoir host, increasing deforestation, multiple mode of transmission, high case fatality rate, and lack of effective therapy or vaccines make NiV’s pandemic potential increasingly significant. Here we review the epidemiology and microbiology of NiV as well as the therapeutic agents and vaccines in development.

Published

2021

10. Humanized Mice in Dengue Research: A Comparison with Other Mouse Models

Author

Hernando Gutiérrez-Barbosa, Joel V Chua, Myriam L. Velandia-Romero, Juan C. Zapata, Sandra Medina-Moreno, Carolina Coronel-Ruiz, Jaime E. Castellanos, Castellanos, Jaime [0000-0003-1596-8383], Velandia-Romero, Myriam Lucía [0000-0002-3340-7304], Coronel-Ruiz, Carolina [0000-0003-2202-5682], Corolnel-Ruíz, Carolina [0000-0003-2202-5682], and Gutiérrez Barbosa, Hector Hernando [0000-0003-2767-6134]

Subjects

Vacunas, 0301 basic medicine, Immunology, Population, lcsh:Medicine, Drug development, Review, Patogénesis homeopática, Disease, Dengue virus, medicine.disease_cause, Arbovirus, immune response, Dengue fever, 03 medical and health sciences, Flaviviridae, denv, 0302 clinical medicine, vaccine, Drug Discovery, Medicine, Dengue mouse models, Pharmacology (medical), education, Inmunidad activa, Pharmacology, education.field_of_study, DENV, biology, business.industry, dengue mouse models, pathogenesis, Mortality rate, lcsh:R, medicine.disease, biology.organism_classification, drug development, humanized mice, 030104 developmental biology, Infectious Diseases, Humanized mouse, business, 030215 immunology

Abstract

Dengue virus (DENV) is an arbovirus of the Flaviviridae family and is an enveloped virion containing a positive sense single-stranded RNA genome. DENV causes dengue fever (DF) which is characterized by an undifferentiated syndrome accompanied by fever, fatigue, dizziness, muscle aches, and in severe cases, patients can deteriorate and develop life-threatening vascular leakage, bleeding, and multi-organ failure. DF is the most prevalent mosquito-borne disease affecting more than 390 million people per year with a mortality rate close to 1% in the general population but especially high among children. There is no specific treatment and there is only one licensed vaccine with restricted application. Clinical and experimental evidence advocate the role of the humoral and T-cell responses in protection against DF, as well as a role in the disease pathogenesis. A lot of pro-inflammatory factors induced during the infectious process are involved in increased severity in dengue disease. The advances in DF research have been hampered by the lack of an animal model that recreates all the characteristics of this disease. Experiments in nonhuman primates (NHP) had failed to reproduce all clinical signs of DF disease and during the past decade, humanized mouse models have demonstrated several benefits in the study of viral diseases affecting humans. In DENV studies, some of these models recapitulate specific signs of disease that are useful to test drugs or vaccine candidates. However, there is still a need for a more complete model mimicking the full spectrum of DENV. This review focuses on describing the advances in this area of research.

Published

2020