Your search keyword '"NSG"' showing total 210 results

1. Sneaking through raising walls: The dynamics of institutionalizing security technology clubs

Author

Heimann, Gadi, Paikowsky, Deganit, and Rabinowitz, Or

Published

2024

2. A Double-Humanized Mouse Model for Studying Host Gut Microbiome-Immune Interactions in Gulf War Illness.

Author

Bose, Dipro, Saha, Punnag, Roy, Subhajit, Trivedi, Ayushi, More, Madhura, Klimas, Nancy, Tuteja, Ashok, and Chatterjee, Saurabh

Subjects

IL-6, NSG, TNF R-1, bacteriome, gut–immune axis, humanized mice, Animals, Gastrointestinal Microbiome, Persian Gulf Syndrome, Humans, Mice, Disease Models, Animal, Cytokines, Fecal Microbiota Transplantation

Abstract

Unraveling the multisymptomatic Gulf War Illness (GWI) pathology and finding an effective cure have eluded researchers for decades. The chronic symptom persistence and limitations for studying the etiologies in mouse models that differ significantly from those in humans pose challenges for drug discovery and finding effective therapeutic regimens. The GWI exposome differs significantly in the study cohorts, and the above makes it difficult to recreate a model closely resembling the GWI symptom pathology. We have used a double engraftment strategy for reconstituting a human immune system coupled with human microbiome transfer to create a humanized-mouse model for GWI. Using whole-genome shotgun sequencing and blood immune cytokine enzyme linked immunosorbent assay (ELISA), we show that our double humanized mice treated with Gulf War (GW) chemicals show significantly altered gut microbiomes, similar to those reported in a Veteran cohort of GWI. The results also showed similar cytokine profiles, such as increased levels of IL-1β, IL-6, and TNF R-1, in the double humanized model, as found previously in a human cohort. Further, a novel GWI Veteran fecal microbiota transfer was used to create a second alternative model that closely resembled the microbiome and immune-system-associated pathology of a GWI Veteran. A GWI Veteran microbiota transplant in humanized mice showed a human microbiome reconstitution and a systemic inflammatory pathology, as reflected by increases in interleukins 1β, 6, 8 (IL-1β, IL-6, IL-8), tumor necrosis factor receptor 1 (TNF R-1), and endotoxemia. In conclusion, though preliminary, we report a novel in vivo model with a human microbiome reconstitution and an engrafted human immune phenotype that may help to better understand gut-immune interactions in GWI.

Published

2024

3. Enhanced tumor control and survival in preclinical models with adoptive cell therapy preceded by low-dose radiotherapy.

Author

Puebla-Osorio, Nahum, Fowlkes, Natalie Wall, Barsoumian, Hampartsoum B., Xega, Kristina, Srivastava, Gitika, Kettlun-Leyton, Claudia, Nizzero, Sara, Voss, Tiffany, Riad, Thomas S., Wong, Christina, Huang, Ailing, Yun Hu, Mitchell, Joylise, Mingee Kim, Rafiq, Zahid, Kewen He, Sezen, Duygu, Hsu, Ethan, Masrorpour, Fatemeh, and Maleki, Aurian

Subjects

CHIMERIC antigen receptors, ATOMIC force microscopy, TREATMENT effectiveness, TUMOR growth, SURVIVAL rate

Abstract

Introduction: Effective infiltration of chimeric antigen receptor T (CAR-T) cells into solid tumors is critical for achieving a robust antitumor response and improving therapeutic outcomes. While CAR-T cell therapies have succeeded in hematologic malignancies, their efficacy in solid tumors remains limited due to poor tumor penetration and an immunosuppressive tumor microenvironment. This study aimed to evaluate the potential of low-dose radiotherapy (LDRT) administered before T-cell therapy to enhance the antitumor effect by promoting CAR-T cell infiltration. We hypothesized that combining LDRT with T-cell therapy would improve tumor control and survival compared to either treatment alone. Methods: We investigated this hypothesis using two NSG mouse models bearing GSU or CAPAN-2 solid tumors. The mice were treated with engineered CAR-T cells targeting guanyl cyclase-C (GCC) or mesothelin as monotherapy or in combination with LDRT. Additionally, we extended this approach to a C57BL/6 mouse model implanted with MC38-gp100+ cells, followed by adoptive transfer of pmel+ T cells before and after LDRT. Tumor growth and survival outcomes were monitored in all models. Furthermore, we employed atomic force microscopy (AFM) in a small cohort to assess the effects of radiotherapy on tumor stiffness and plasticity, exploring the role of tumor nanomechanics as a potential biomarker for treatment efficacy. Results: Our results demonstrated enhanced tumor control and prolonged survival in mice treated with LDRT followed by T-cell therapy across all models. The combination of LDRT with CAR-T or pmel+ T-cell therapy led to superior tumor suppression and survival compared to monotherapy, highlighting the synergistic impact of the combined approach. Additionally, AFM analysis revealed significant changes in tumor stiffness and plasticity in response to LDRT, suggesting that the nanomechanical properties of the tumor may be predictive of therapeutic response. Discussion: The findings of this study highlight the transformative potential of incorporating LDRT as a precursor to adoptive T-cell therapy in solid tumors. By promoting CAR-T and pmel+ T-cell infiltration into the tumor microenvironment, LDRT enhanced tumor control and improved survival outcomes, offering a promising strategy to overcome the challenges associated with CAR-T therapy in solid tumors. Additionally, the changes in tumor nanomechanics observed through AFM suggest that tumor stiffness and plasticity could be biomarkers for predicting treatment outcomes. These results support further investigation into the clinical application of this combined approach to improve the efficacy of cellbased therapies in patients with solid tumors. [ABSTRACT FROM AUTHOR]

Published

2024

4. Long-Term Human Immune Reconstitution, T-Cell Development, and Immune Reactivity in Mice Lacking the Murine Major Histocompatibility Complex: Validation with Cellular and Gene Expression Profiles.

Author

Darguzyte, Milita, Antczak, Philipp, Bachurski, Daniel, Hoelker, Patrick, Abedpour, Nima, Gholamipoorfard, Rahil, Schlößer, Hans A., Wennhold, Kerstin, Thelen, Martin, Garcia-Marquez, Maria A., Koenig, Johannes, Schneider, Andreas, Braun, Tobias, Klawonn, Frank, Damrat, Michael, Rahman, Masudur, Kleid, Jan-Malte, Theobald, Sebastian J., Bauer, Eugen, and von Kaisenberg, Constantin

Subjects

*HLA histocompatibility antigens, *LYMPHOCYTE subsets, *MAJOR histocompatibility complex, *LYMPHOID tissue, *KILLER cells, *T cells

Abstract

Background: Humanized mice transplanted with CD34+ hematopoietic cells (HPCs) are broadly used to study human immune responses and infections in vivo and for testing therapies pre-clinically. However, until now, it was not clear whether interactions between the mouse major histocompatibility complexes (MHCs) and/or the human leukocyte antigens (HLAs) were necessary for human T-cell development and immune reactivity. Methods: We evaluated the long-term (20-week) human hematopoiesis and human T-cell development in NOD Scid Gamma (NSG) mice lacking the expression of MHC class I and II (NSG-DKO). Triplicate experiments were performed with HPCs obtained from three donors, and humanization was confirmed in the reference strain NOD Rag Gamma (NRG). Further, we tested whether humanized NSG-DKO mice would respond to a lentiviral vector (LV) systemic delivery of HLA-A*02:01, HLA-DRB1*04:01, human GM-CSF/IFN-α, and the human cytomegalovirus gB antigen. Results: Human immune reconstitution was detectable in peripheral blood from 8 to 20 weeks after the transplantation of NSG-DKO. Human single positive CD4+ and CD8+ T-cells were detectable in lymphatic tissues (thymus, bone marrow, and spleen). LV delivery harnessed the detection of lymphocyte subsets in bone marrow (αβ and γδ T-cells and NK cells) and the expression of HLA-DR. Furthermore, RNA sequencing showed that LV delivery increased the expression of different human reactome pathways, such as defense responses to other organisms and viruses. Conclusions: Human T-cell development and reactivity are independent of the expression of murine MHCs in humanized mice. Therefore, humanized NSG-DKO is a promising new model for studying human immune responses, as it abrogates the xenograft mouse MHC interference. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

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

Subjects

MONONUCLEAR leukocytes, BLOOD cells, SYMPTOMS, LABORATORY mice, CELL populations

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. [ABSTRACT FROM AUTHOR]

Published

2024

6. Human Hematopoietic Stem Cell Engrafted IL-15 Transgenic NSG Mice Support Robust NK Cell Responses and Sustained HIV-1 Infection

Author

Abeynaike, Shawn A, Huynh, Tridu R, Mehmood, Abeera, Kim, Teha, Frank, Kayla, Gao, Kefei, Zalfa, Cristina, Gandarilla, Angel, Shultz, Leonard, and Paust, Silke

Subjects

Microbiology, Biological Sciences, Regenerative Medicine, Transplantation, HIV/AIDS, Stem Cell Research - Nonembryonic - Human, Stem Cell Research - Umbilical Cord Blood/ Placenta, Infectious Diseases, Stem Cell Research, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Infection, Mice, Humans, Animals, Mice, Inbred NOD, Mice, Transgenic, HIV-1, Interleukin-15, HIV Infections, HIV Seropositivity, Killer Cells, Natural, Hematopoietic Stem Cells, Mice, SCID, humanized mice, NSG, NK cells, IL-15, immunotherapy

Abstract

Mice reconstituted with human immune systems are instrumental in the investigation of HIV-1 pathogenesis and therapeutics. Natural killer (NK) cells have long been recognized as a key mediator of innate anti-HIV responses. However, established humanized mouse models do not support robust human NK cell development from engrafted human hematopoietic stem cells (HSCs). A major obstacle to human NK cell reconstitution is the lack of human interleukin-15 (IL-15) signaling, as murine IL-15 is a poor stimulator of the human IL-15 receptor. Here, we demonstrate that immunodeficient NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ (NSG) mice expressing a transgene encoding human IL-15 (NSG-Tg(IL-15)) have physiological levels of human IL-15 and support long-term engraftment of human NK cells when transplanted with human umbilical-cord-blood-derived HSCs. These Hu-NSG-Tg(IL-15) mice demonstrate robust and long-term reconstitution with human immune cells, but do not develop graft-versus-host disease (GVHD), allowing for long-term studies of human NK cells. Finally, we show that these HSC engrafted mice can sustain HIV-1 infection, resulting in human NK cell responses in HIV-infected mice. We conclude that Hu-NSG-Tg(IL-15) mice are a robust novel model to study NK cell responses to HIV-1.

Published

2023

7. Theoretical Perspectives of Corporate Governance : The Foundation

Author

Jhunjhunwala, Shital and Jhunjhunwala, Shital

Published

2023

8. The Coexistence of the ROK–France–IAEA Nuclear Cooperation Agreement and the ROK–U.S. Nuclear Cooperation Agreement, 1975

Author

Choi, Lyong, Lee, Jooyoung, Choi, Lyong, and Lee, Jooyoung

Published

2023

9. 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

10. Development of Mast Cell and Eosinophil Hyperplasia and HLH/MAS-Like Disease in NSG-SGM3 Mice Receiving Human CD34+ Hematopoietic Stem Cells or Patient-Derived Leukemia Xenografts.

Author

Janke, Laura, Imai, Denise, Tillman, Heather, Doty, Rosalinda, Hoenerhoff, Mark, Xu, Jiajie, Freeman, Zachary, Allen, Portia, Fowlkes, Natalie, Iacobucci, Ilaria, Dickerson, Kirsten, Mullighan, Charles, Vogel, Peter, and Rehg, Jerold

Subjects

NSG, NSG-SGM3, eosinophil hyperplasia, hemophagocytic lymphohistiocytosis, macrophage activation syndrome, mast cell hyperplasia, Animals, Eosinophils, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells, Heterografts, Humans, Hyperplasia, Leukemia, Lymphohistiocytosis, Hemophagocytic, Macrophage Activation Syndrome, Mast Cells, Mice, Mice, Inbred NOD, Mice, SCID

Abstract

Immunocompromised mouse strains expressing human transgenes are being increasingly used in biomedical research. The genetic modifications in these mice cause various cellular responses, resulting in histologic features unique to each strain. The NSG-SGM3 mouse strain is similar to the commonly used NSG (NOD scid gamma) strain but expresses human transgenes encoding stem cell factor (also known as KIT ligand), granulocyte-macrophage colony-stimulating factor, and interleukin 3. This report describes 3 histopathologic features seen in these mice when they are unmanipulated or after transplantation with human CD34+ hematopoietic stem cells (HSCs), virally transduced hCD34+ HSCs, or a leukemia patient-derived xenograft. The first feature is mast cell hyperplasia: unmanipulated, naïve mice develop periductular pancreatic aggregates of murine mast cells, whereas mice given the aforementioned human cells develop a proliferative infiltrative interstitial pancreatic mast cell hyperplasia but with human mast cells. The second feature is the predisposition of NSG-SGM3 mice given these human cells to develop eosinophil hyperplasia. The third feature, secondary hemophagocytic lymphohistiocytosis/macrophage activation syndrome (HLH/MAS)-like disease, is the most pronounced in both its clinical and histopathologic presentations. As part of this disease, a small number of mice also have histiocytic infiltration of the brain and spinal cord with subsequent neurologic or vestibular signs. The presence of any of these features can confound accurate histopathologic interpretation; therefore, it is important to recognize them as strain characteristics and to differentiate them from what may be experimentally induced in the model being studied.

Published

2021

11. Humanized NSG Mouse Models as a Preclinical Tool for Translational Research in Inflammatory Bowel Diseases.

Author

Weß, Veronika, Schuster-Winkelmann, Paula, Karatekin, Yasemin Hazal, Malik, Simge, Beigel, Florian, Kühn, Florian, and Gropp, Roswitha

Subjects

*LABORATORY mice, *INFLAMMATORY bowel diseases, *CROHN'S disease, *TRANSLATIONAL research, *MONONUCLEAR leukocytes, *ANIMAL models in research

Abstract

The development of animal models reflecting the pathologies of ulcerative colitis (UC) and Crohn's disease (CD) remains a major challenge. The NOD/SCID/IL2rγnull (NSG) mouse strain, which is immune-compromised, tolerates the engraftment of human peripheral blood mononuclear cells (PBMC) derived from patients with UC (NSG-UC) or CD (NSG-CD). This offers the opportunity to examine the impact of individual immunological background on the development of pathophysiological manifestations. When challenged with ethanol, NSG-UC mice exhibited a strong pro-inflammatory response, including the development of edemas, influx of human T cells, B cells and monocytes into the mucosa and submucosa, and elevated expression of the inflammatory markers CRP and CCL-7. Fibrotic alterations were characterized by an influx of fibroblasts and a thickening of the muscularis mucosae. In contrast, the development of pathological manifestations in NSG-CD mice developed without challenge and was signified by extensive collagen deposition between the muscularis propria and muscularis mucosae, as observed in the areas of strictures in CD patients. Vimentin-expressing fibroblasts supplanting colonic crypts and elevated expression of HGF and TGFß corroborated the remodeling phenotype. In summary, the NSG-UC and NSG-CD models partially reflect these human diseases and are powerful tools to examine the mechanism underlying the inflammatory processes in UC and CD. [ABSTRACT FROM AUTHOR]

Published

2023

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

Author

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

Subjects

LABORATORY mice, MYELOID cells, HUMAN stem cells, HEMATOPOIETIC stem cells, CORD blood, CELL populations, T cells, RESEARCH questions, THROMBOPOIETIN receptors

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. [ABSTRACT FROM AUTHOR]

Published

2023

13. NOD-scid IL2rγnull mice lacking TLR4 support human immune system development and the study of human-specific innate immunity.

Author

Aryee, Ken-Edwin, Shultz, Leonard D, Burzenski, Lisa M, Greiner, Dale L, and Brehm, Michael A

Subjects

LABORATORY mice, NATURAL immunity, IMMUNE system, TOLL-like receptors, SYSTEMS development, B cells

Abstract

Agents that induce inflammation have been used since the 18th century for the treatment of cancer. The inflammation induced by agents such as Toll-like receptor agonists is thought to stimulate tumor-specific immunity in patients and augment control of tumor burden. While NOD- scid IL2rγnull mice lack murine adaptive immunity (T cells and B cells), these mice maintain a residual murine innate immune system that responds to Toll-like receptor agonists. Here we describe a novel NOD- scid IL2rγnull mouse lacking murine TLR4 that fails to respond to lipopolysaccharide. NSG- Tlr4null mice support human immune system engraftment and enable the study of human-specific responses to TLR4 agonists in the absence of the confounding effects of a murine response. Our data demonstrate that specific stimulation of TLR4 activates human innate immune systems and delays the growth kinetics of a human patient-derived xenograft melanoma tumor. [ABSTRACT FROM AUTHOR]

Published

2023

14. Spontaneous early-onset neurodegeneration in the brainstem and spinal cord of NSG, NOG, and NXG mice.

Author

Finesso, Giovanni, Willis, Elinor, Tarrant, James Carmine, Lanza, Matthew, Sprengers, Justin, Verrelle, Jillian, Banerjee, Esha, Hermans, Els, Assenmacher, Charles-Antoine, and Radaelli, Enrico

Subjects

LABORATORY mice, SPINAL cord, BRAIN stem, MICE, NEURODEGENERATION, GENETIC mutation, VIRUS diseases, FEMALES

Abstract

The spectrum of background, incidental, and experimentally induced lesions affecting NSG and NOG mice has been the subject of intense investigation. However, comprehensive studies focusing on the spontaneous neuropathological changes of these immunocompromised strains are lacking. This work describes the development of spontaneous early-onset neurodegeneration affecting both juvenile and adult NSG, NOG, and NXG mice. The study cohort consisted of 367 NSG mice of both sexes (including 33 NSG-SGM3), 61 NOG females (including 31 NOG-EXL), and 4 NXG females. These animals were primarily used for preclinical CAR T-cell testing, generation of humanized immune system chimeras, and/or tumor xenograft transplantation. Histopathology of brain and spinal cord and immunohistochemistry (IHC) for AIF-1, GFAP, CD34, and CD45 were performed. Neurodegenerative changes were observed in 57.6% of the examined mice (affected mice age range was 6-36 weeks). The lesions were characterized by foci of vacuolation with neuronal degeneration/death and gliosis distributed throughout the brainstem and spinal cord. IHC confirmed the development of gliosis, overexpression of CD34, and a neuroinflammatory component comprised of CD45-positive monocyte-derived macrophages. Lesions were significantly more frequent and severe in NOG mice. NSG males were considerably more affected than NSG females. Increased lesion frequency and severity in older animals were also identified. These findings suggest that NSG, NOG, and NXG mice are predisposed to the early development of identical neurodegenerative changes. While the cause of these lesions is currently unclear, potential associations with the genetic mutations shared by NSG, NOG, and NXG mice as well as unidentified viral infections are considered. [ABSTRACT FROM AUTHOR]

Published

2023

15. Next-generation humanized NSG-SGM3 mice are highly susceptible to Staphylococcus aureus infection.

Author

Hung, Sophia, Kasperkowitz, Amelie, Kurz, Florian, Dreher, Liane, Diessner, Joachim, Ibrahim, Eslam S., Schwarz, Stefan, Ohlsen, Knut, and Hertlein, Tobias

Subjects

LABORATORY mice, STAPHYLOCOCCUS aureus infections, MICROCOCCACEAE, MICE, B cells, MYELOID cells, T cells

Abstract

Humanized hemato-lymphoid system mice, or humanized mice, emerged in recent years as a promising model to study the course of infection of human-adapted or human-specific pathogens. Though Staphylococcus aureus infects and colonizes a variety of species, it has nonetheless become one of the most successful human pathogens of our time with a wide armory of human-adapted virulence factors. Humanizedmice showed increased vulnerability to S. aureus compared to wild type mice in a variety of clinically relevant disease models. Most of these studies employed humanized NSG (NOD-scid IL2Rgnull) mice which are widely used in the scientific community, but show poor human myeloid cell reconstitution. Since this immune cell compartment plays a decisive role in the defense of the human immune system against S. aureus, we asked whether next-generation humanized mice, like NSG-SGM3 (NOD-scid IL2Rgnull-3/GM/SF) with improved myeloid reconstitution, would prove to be more resistant to infection. To our surprise, we found the contrary when we infected humanized NSG-SGM3 (huSGM3) mice with S. aureus: although they had stronger human immune cell engraftment than humanized NSG mice, particularly in the myeloid compartment, they displayed even more pronounced vulnerability to S. aureus infection. HuSGM3 mice had overall higher numbers of human T cells, B cells, neutrophils and monocytes in the blood and the spleen. This was accompanied by elevated levels of pro-inflammatory human cytokines in the blood of huSGM3 mice. We further identified that the impaired survival of huSGM3 mice was not linked to higher bacterial burden nor to differences in the murine immune cell repertoire. Conversely, we could demonstrate a correlation of the rate of humanization and the severity of infection. Collectively, this study suggests a detrimental effect of the human immune system in humanized mice upon encounter with S. aureus which might help to guide future therapy approaches and analysis of virulence mechanisms. [ABSTRACT FROM AUTHOR]

Published

2023

16. Development of a novel human CD147 knock-in NSG mouse model to test SARS-CoV-2 viral infection

Author

Saiaditya Badeti, Qingkui Jiang, Alireza Naghizadeh, Hsiang-chi Tseng, Yuri Bushkin, Salvatore A. E. Marras, Annuurun Nisa, Sanjay Tyagi, Fei Chen, Peter Romanienko, Ghassan Yehia, Deborah Evans, Moises Lopez-Gonzalez, David Alland, Riccardo Russo, William Gause, Lanbo Shi, and Dongfang Liu

Subjects

CD147, Basigin, BSG, hCD147KI, NSG, SARS-CoV-2, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background An animal model that can mimic the SARS-CoV-2 infection in humans is critical to understanding the rapidly evolving SARS-CoV-2 virus and for development of prophylactic and therapeutic strategies to combat emerging mutants. Studies show that the spike proteins of SARS-CoV and SARS-CoV-2 bind to human angiotensin-converting enzyme 2 (hACE2, a well-recognized, functional receptor for SARS-CoV and SARS-CoV-2) to mediate viral entry. Several hACE2 transgenic (hACE2Tg) mouse models are being widely used, which are clearly invaluable. However, the hACE2Tg mouse model cannot fully explain: (1) low expression of ACE2 observed in human lung and heart, but lung or heart failure occurs frequently in severe COVID-19 patients; (2) low expression of ACE2 on immune cells, but lymphocytopenia occurs frequently in COVID-19 patients; and (3) hACE2Tg mice do not mimic the natural course of SARS-CoV-2 infection in humans. Moreover, one of most outstanding features of coronavirus infection is the diversity of receptor usage, which includes the newly proposed human CD147 (hCD147) as a possible co-receptor for SARS-CoV-2 entry. It is still debatable whether CD147 can serve as a functional receptor for SARS-CoV-2 infection or entry. Results Here we successfully generated a hCD147 knock-in mouse model (hCD147KI) in the NOD-scid IL2Rgammanull (NSG) background. In this hCD147KI-NSG mouse model, the hCD147 genetic sequence was placed downstream of the endogenous mouse promoter for mouse CD147 (mCD147), which creates an in vivo model that may better recapitulate physiological expression of hCD147 proteins at the molecular level compared to the existing and well-studied K18-hACE2-B6 (JAX) model. In addition, the hCD147KI-NSG mouse model allows further study of SARS-CoV-2 in the immunodeficiency condition which may assist our understanding of this virus in the context of high-risk populations in immunosuppressed states. Our data show (1) the human CD147 protein is expressed in various organs (including bronchiolar epithelial cells) in hCD147KI-NSG mice by immunohistochemical staining and flow cytometry; (2) hCD147KI-NSG mice are marginally sensitive to SARS-CoV-2 infection compared to WT-NSG littermates characterized by increased viral copies by qRT-PCR and moderate body weight decline compared to baseline; (3) a significant increase in leukocytes in the lungs of hCD147KI-NSG mice, compared to infected WT-NSG mice. Conclusions hCD147KI-NSG mice are more sensitive to COVID-19 infection compared to WT-NSG mice. The hCD147KI-NSG mouse model can serve as an additional animal model for further interrogation whether CD147 serve as an independent functional receptor or accessory receptor for SARS-CoV-2 entry and immune responses.

Published

2022

17. Next-generation humanized NSG-SGM3 mice are highly susceptible to Staphylococcus aureus infection

Author

Sophia Hung, Amelie Kasperkowitz, Florian Kurz, Liane Dreher, Joachim Diessner, Eslam S. Ibrahim, Stefan Schwarz, Knut Ohlsen, and Tobias Hertlein

Subjects

humanized mice, Staphylococcus aureus, MRSA, NSG, NSG-SGM3, staphylococcal abscess, Immunologic diseases. Allergy, RC581-607

Abstract

Humanized hemato-lymphoid system mice, or humanized mice, emerged in recent years as a promising model to study the course of infection of human-adapted or human-specific pathogens. Though Staphylococcus aureus infects and colonizes a variety of species, it has nonetheless become one of the most successful human pathogens of our time with a wide armory of human-adapted virulence factors. Humanized mice showed increased vulnerability to S. aureus compared to wild type mice in a variety of clinically relevant disease models. Most of these studies employed humanized NSG (NOD-scid IL2Rgnull) mice which are widely used in the scientific community, but show poor human myeloid cell reconstitution. Since this immune cell compartment plays a decisive role in the defense of the human immune system against S. aureus, we asked whether next-generation humanized mice, like NSG-SGM3 (NOD-scid IL2Rgnull-3/GM/SF) with improved myeloid reconstitution, would prove to be more resistant to infection. To our surprise, we found the contrary when we infected humanized NSG-SGM3 (huSGM3) mice with S. aureus: although they had stronger human immune cell engraftment than humanized NSG mice, particularly in the myeloid compartment, they displayed even more pronounced vulnerability to S. aureus infection. HuSGM3 mice had overall higher numbers of human T cells, B cells, neutrophils and monocytes in the blood and the spleen. This was accompanied by elevated levels of pro-inflammatory human cytokines in the blood of huSGM3 mice. We further identified that the impaired survival of huSGM3 mice was not linked to higher bacterial burden nor to differences in the murine immune cell repertoire. Conversely, we could demonstrate a correlation of the rate of humanization and the severity of infection. Collectively, this study suggests a detrimental effect of the human immune system in humanized mice upon encounter with S. aureus which might help to guide future therapy approaches and analysis of virulence mechanisms.

Published

2023

18. Recent Developments in NSG and NRG Humanized Mouse Models for Their Use in Viral and Immune Research.

Author

Kitsera, Maksym, Brunetti, Jesús Emanuel, and Rodríguez, Estefanía

Subjects

*LABORATORY mice, *VIRUS diseases, *VACCINE development, *KNOCKOUT mice, *COMMUNICABLE diseases, *AUTOIMMUNE diseases

Abstract

Humanized mouse models have been widely used in virology, immunology, and oncology in the last decade. With advances in the generation of knockout mouse strains, it is now possible to generate animals in which human immune cells or human tissue can be engrafted. These models have been used for the study of human infectious diseases, cancers, and autoimmune diseases. In recent years, there has been an increase in the use of humanized mice to model human-specific viral infections. A human immune system in these models is crucial to understand the pathogenesis observed in human patients, which allows for better treatment design and vaccine development. Recent advances in our knowledge about viral pathogenicity and immune response using NSG and NRG mice are reviewed in this paper. [ABSTRACT FROM AUTHOR]

Published

2023

19. Use of Hu-PBL Mice to Study Pathogenesis of Human-Restricted Viruses.

Author

Brunetti, Jesús Emanuel, Kitsera, Maksym, Muñoz-Fontela, César, and Rodríguez, Estefanía

Subjects

*AUTOIMMUNE diseases, *VIRUS diseases, *STEM cell transplantation, *IMMUNOLOGIC memory, *COMMUNICABLE diseases

Abstract

Different humanized mouse models have been developed to study human diseases such as autoimmune illnesses, cancer and viral infections. These models are based on the use of immunodeficient mouse strains that are transplanted with human tissues or human immune cells. Among the latter, mice transplanted with hematopoietic stem cells have been widely used to study human infectious diseases. However, mouse models built upon the transplantation of donor-specific mature immune cells are still under development, especially in the field of viral infections. These models can retain the unique immune memory of the donor, making them suitable for the study of correlates of protection upon natural infection or vaccination. Here, we will review some of these models and how they have been applied to virology research. Moreover, the future applications and the potential of these models to design therapies against human viral infections are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

20. Effects of Starch Overload and Cecal Buffering on Fecal Microbiota of Horses.

Author

Bustamante, Caio C., de Paula, Vanessa B., Rabelo, Isabela P., Fernandes, Camila C., Kishi, Luciano T., Canola, Paulo A., Lemos, Eliana Gertrudes de M., and Valadão, Carlos Augusto A.

Subjects

*STARCH, *HORSES, *CORNSTARCH, *FECAL analysis, *ALKALINE solutions, *ABDOMINAL pain, *HORSE breeding

Abstract

Simple Summary: The purpose of this study was to determine if the intracecal injection of alkaline solution (buffer; Mg(OH)2 + Al(OH)3) could stabilize fecal microbiota and clinical changes in horses submitted to starch overload. Clinical signs, gross analysis of the feces, and fecal microbiota were evaluated for 72 h (T0; T8; T12; T24; T48; T72) from ten crossbred horses. Horses were allocated to group I (water–saline and starch–buffer treatments) and group II (water–buffer and starch–saline treatments). Starch overload reduced the richness and diversity of the fecal microbiota. However, the starch–buffer treatment led to a greater increase in amylolytic bacteria and decrease in fibrolytic bacteria than did the starch–saline treatment. This study showed that cecal infusion of buffer did not prevent the intestinal disturbances and their consequences. Starch overload in horses causes gastrointestinal and metabolic disorders that are associated with microbiota changes. Therefore, we identified the fecal microbiota and hypothesized that intracecal injection of alkaline solution (buffer; Mg(OH)2 + Al(OH)3) could stabilize these microbiota and clinical changes in horses submitted to corn starch overload. Ten crossbred horses (females and geldings) were allocated to group I (water–saline and starch–buffer treatments) and group II (water–buffer and starch–saline treatments). Clinical signs, gross analysis of the feces, and fecal microbiota were evaluated through 72 h (T0; T8; T12; T24; T48; T72). Corn starch or water were administrated by nasogastric tube at T0, and the buffer injected into the cecum at T8 in starch–buffer and water–buffer treatments. Starch overload reduced the richness (p < 0.001) and diversity (p = 0.001) of the fecal microbiota. However, the starch–buffer treatment showed greater increase in amylolytic bacteria (Bifidobacterium 0.0% to 5.6%; Lactobacillus 0.1% to 7.4%; p < 0.05) and decrease in fibrolytic bacteria (Lachnospiraceae 10.2% to 5.0%; Ruminococcaceae 11.7% to 4.2%; p < 0.05) than starch–saline treatment. Additionally, animals that received starch–buffer treatment showed more signs of abdominal discomfort and lameness associated with dysbiosis (amylolytic r > 0.5; fribolytic r < 0.1; p < 0.05), showing that cecal infusion of buffer did not prevent, but intensified intestinal disturbances and the risk of laminitis. [ABSTRACT FROM AUTHOR]

Published

2022

21. Enhanced development of functional human NK cells in NOD‐scid‐IL2rgnull mice expressing human IL15.

Author

Aryee, Ken‐Edwin, Burzenski, Lisa M., Yao, Li‐Chin, Keck, James G., Greiner, Dale L., Shultz, Leonard D., and Brehm, Michael A.

Abstract

Human innate immunity plays a critical role in tumor surveillance and in immunoregulation within the tumor microenvironment. Natural killer (NK) cells are innate lymphoid cells that have opposing roles in the tumor microenvironment, including NK cell subsets that mediate tumor cell cytotoxicity and subsets with regulatory function that contribute to the tumor immune suppressive environment. The balance between effector and regulatory NK cell subsets has been studied extensively in murine models of cancer, but there is a paucity of models to study human NK cell function in tumorigenesis. Humanized mice are a powerful alternative to syngeneic mouse tumor models for the study of human immuno‐oncology and have proven effective tools to test immunotherapies targeting T cells. However, human NK cell development and survival in humanized NOD‐scid‐IL2rgnull (NSG) mice are severely limited. To enhance NK cell development, we have developed NSG mice that constitutively expresses human Interleukin 15 (IL15), NSG‐Tg(Hu‐IL15). Following hematopoietic stem cell engraftment of NSG‐Tg(Hu‐IL15) mice, significantly higher levels of functional human CD56+ NK cells are detectable in blood and spleen, as compared to NSG mice. Hematopoietic stem cell (HSC)‐engrafted NSG‐Tg(Hu‐IL15) mice also supported the development of human CD3+ T cells, CD20+ B cells, and CD33+ myeloid cells. Moreover, the growth kinetics of a patient‐derived xenograft (PDX) melanoma were significantly delayed in HSC‐engrafted NSG‐Tg(Hu‐IL15) mice as compared to HSC‐engrafted NSG mice demonstrating that human NK cells have a key role in limiting the tumor growth. Together, these data demonstrate that HSC‐engrafted NSG‐Tg(Hu‐IL15) mice support enhanced development of functional human NK cells, which limit the growth of PDX tumors. [ABSTRACT FROM AUTHOR]

Published

2022

22. 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

23. Generation of a novel immunodeficient mouse model of Mucopolysaccharidosis type IIIA to test human stem cell-based therapies.

Author

Mandolfo, Oriana, Parker, Helen, Usman, Asma'u, Learmonth, Yuko Ishikawa, Holley, Rebecca J., MacDonald, Andrew, McKay, Tristan, and Bigger, Brian

Subjects

*LYSOSOMAL storage diseases, *HEPARAN sulfate, *LABORATORY mice, *BRAIN diseases, *MEMORY disorders

Abstract

Mucopolysaccharidosis Type IIIA (MPSIIIA) is a rare inherited lysosomal storage disease caused by mutations in the SGSH gene. This genetic variation results in the deficiency of the N-sulfoglucosamine sulfohydrolase enzyme, preventing the breakdown of heparan sulfate within lysosomes. The progressive accumulation of partially degraded substrate ultimately leads to brain pathology, for which there is currently no approved treatment. An established MPSIIIA mouse model has proved to be a vital asset to test several brain-targeting strategies. Nonetheless, the assessment of human stem cell-based products, an emerging research field, necessitates the use of an immunocompromised xenogeneic disease model. In the present study, we addressed this issue by generating a highly immunodeficient mouse model of MPSIIIA (NOD/SCID/GammaC chain null-MPSIIIA) through five generations of crossing an established MPSIIIA mouse model and a NOD/SCID/GammaC chain null (NSG) mouse. The immune system composition, behavioural phenotype and histopathological hallmarks of the NSG-MPSIIIA model were then evaluated. We demonstrated that NSG-MPSIIIA mice display compromised adaptive immunity, ultimately facilitating the successful engraftment of human iPSC-derived neural progenitor cells in the brain up to three months post-delivery. Furthermore, female NSG-MPSIIIA exhibit spatial working memory deficits and hyperactive behaviour, similar to MPSIIIA mice, which usually manifest around 5 months of age. NSG-MPSIIIA mice also developed primary disease-related neuropathological features in common with the MPSIIIA model, including lysosomal enlargement with storage of excess sulphated heparan sulphate and increased gliosis in several areas of the brain. In the future, the NSG-MPSIIIA mouse model holds the potential to serve as a valuable platform for evaluating human stem-cell based therapies for MPSIIIA patients. [ABSTRACT FROM AUTHOR]

Published

2024

24. Neurosecretion: Hypothalamic Somata versus Neurohypophysial Terminals

Author

Dayanithi, Govindan, Lemos, José R., Russell, John A., Series Editor, Armstrong, William E., Series Editor, Lemos, José R., editor, and Dayanithi, Govindan, editor

Published

2020

25. Humanized Ovarian Cancer Patient-Derived Xenografts for Improved Preclinical Evaluation of Immunotherapies.

Author

Kleinmanns, Katrin, Gullaksen, Stein-Erik, Bredholt, Geir, Davidson, Ben, Torkildsen, Cecilie Fredvik, Grindheim, Sindre, Bjørge, Line, and McCormack, Emmet

Subjects

*RODENTS, *FLOW cytometry, *OVARIAN tumors, *XENOGRAFTS, *ANIMAL experimentation, *IMMUNE system, *TREATMENT effectiveness, *SURVIVAL analysis (Biometry), *NIVOLUMAB, *DESCRIPTIVE statistics, *IMMUNOTHERAPY, *MICE, *PHARMACODYNAMICS

Abstract

Simple Summary: Epithelial ovarian cancer (EOC) is a heterogenous disease and new combination therapies are employed to improve treatment, decrease disease recurrence, and avoid the development of treatment resistance. Immunotherapy has been suggested to boost the immune system and improve the prognosis of EOC patients. However, overall low response rates and missing reliable biomarkers to stratify patients to their best-suited personalized treatment regime hinder the successful implementation. Our aim is to advance the development and characterization of humanized patient-derived xenograft models aiding to unravel the function and interaction of the unique tumor microenvironment and the immune system in EOC. These developed and clinically relevant humanized models of EOC have the potential to test various immune cell-targeting combination therapies and identify mechanisms in heterogenous EOC cohorts to ultimately allow patient stratification. High-grade serous ovarian cancer (HGSOC) has poor prognosis and new treatment modalities are needed. Immunotherapy, with checkpoint inhibitors, have demonstrated limited impact. To evaluate the suitability for immunotherapeutics, contextualized preclinical models are required to secure meaningful clinical translation. Therefore, we developed and characterized humanized patient-derived xenograft (hu PDX) murine models of HGSOC, which were established by orthotopic implantation of tumor cell suspensions and intravenous injection of CD34+ cells isolated from umbilical cord blood samples. The developing human immune system in NSG and NSGS mice was followed longitudinally by flow cytometry and characterized by mass cytometry with a panel of 34 surface markers. Molecular imaging of tumor burden, survival analysis, and characterization of tumor-infiltrating immune cells was performed to assess the treatment response to anti-PD-1 (nivolumab) monotherapy. Successful generation of hu PDX models was achieved. Mice treated with nivolumab showed a decrease in tumor burden, however no significant survival benefit was identified when compared to untreated controls. No correlation was seen between PD-L1 expression and CD8 T cell infiltration and response parameters. As the characterization showed an immune infiltration of predominantly myeloid cells, similar to what is observed in HGSOC patients, the models may have the potential to evaluate the importance of myeloid cell immunomodulation as well. [ABSTRACT FROM AUTHOR]

Published

2022

26. MRSA Infection in the Thigh Muscle Leads to Systemic Disease, Strong Inflammation, and Loss of Human Monocytes in Humanized Mice.

Author

Hung, Sophia, Dreher, Liane, Diessner, Joachim, Schwarz, Stefan, Ohlsen, Knut, and Hertlein, Tobias

Subjects

LABORATORY mice, METHICILLIN-resistant staphylococcus aureus, MONOCYTES, B cells, HEMATOPOIETIC stem cells, DRUG resistance in bacteria, MICE, THIGH

Abstract

MRSA (Methicillin-resistant Staphylococcus aureus) is the second-leading cause of deaths by antibiotic-resistant bacteria globally, with more than 100,000 attributable deaths annually. Despite the high urgency to develop a vaccine to control this pathogen, all clinical trials with pre-clinically effective candidates failed so far. The recent development of "humanized" mice might help to edge the pre-clinical evaluation closer to the clinical situation and thus close this gap. We infected humanized NSG mice (huNSG: (NOD)- scid IL2Rγnull mice engrafted with human CD34+ hematopoietic stem cells) locally with S. aureus USA300 LAC* lux into the thigh muscle in order to investigate the human immune response to acute and chronic infection. These mice proved not only to be more susceptible to MRSA infection than wild-type or "murinized" mice, but displayed furthermore inferior survival and signs of systemic infection in an otherwise localized infection model. The rate of humanization correlated directly with the severity of disease and survival of the mice. Human and murine cytokine levels in blood and at the primary site of infection were strongly elevated in huNSG mice compared to all control groups. And importantly, differences in human and murine immune cell lineages surfaced during the infection, with human monocyte and B cell numbers in blood and bone marrow being significantly reduced at the later time point of infection. Murine monocytes in contrast behaved conversely by increasing cell numbers. This study demonstrates significant differences in the in vivo behavior of human and murine cells towards S. aureus infection, which might help to sharpen the translational potential of pre-clinical models for future therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2022

27. Development of a novel human CD147 knock-in NSG mouse model to test SARS-CoV-2 viral infection.

Author

Badeti, Saiaditya, Jiang, Qingkui, Naghizadeh, Alireza, Tseng, Hsiang-chi, Bushkin, Yuri, Marras, Salvatore A. E., Nisa, Annuurun, Tyagi, Sanjay, Chen, Fei, Romanienko, Peter, Yehia, Ghassan, Evans, Deborah, Lopez-Gonzalez, Moises, Alland, David, Russo, Riccardo, Gause, William, Shi, Lanbo, and Liu, Dongfang

Subjects

LABORATORY mice, ANIMAL disease models, SARS-CoV-2, ANGIOTENSIN converting enzyme, COVID-19, IMMUNOSTAINING, VIRUS diseases, FLOW cytometry

Abstract

Background: An animal model that can mimic the SARS-CoV-2 infection in humans is critical to understanding the rapidly evolving SARS-CoV-2 virus and for development of prophylactic and therapeutic strategies to combat emerging mutants. Studies show that the spike proteins of SARS-CoV and SARS-CoV-2 bind to human angiotensin-converting enzyme 2 (hACE2, a well-recognized, functional receptor for SARS-CoV and SARS-CoV-2) to mediate viral entry. Several hACE2 transgenic (hACE2Tg) mouse models are being widely used, which are clearly invaluable. However, the hACE2Tg mouse model cannot fully explain: (1) low expression of ACE2 observed in human lung and heart, but lung or heart failure occurs frequently in severe COVID-19 patients; (2) low expression of ACE2 on immune cells, but lymphocytopenia occurs frequently in COVID-19 patients; and (3) hACE2Tg mice do not mimic the natural course of SARS-CoV-2 infection in humans. Moreover, one of most outstanding features of coronavirus infection is the diversity of receptor usage, which includes the newly proposed human CD147 (hCD147) as a possible co-receptor for SARS-CoV-2 entry. It is still debatable whether CD147 can serve as a functional receptor for SARS-CoV-2 infection or entry. Results: Here we successfully generated a hCD147 knock-in mouse model (hCD147KI) in the NOD-scid IL2Rgammanull (NSG) background. In this hCD147KI-NSG mouse model, the hCD147 genetic sequence was placed downstream of the endogenous mouse promoter for mouse CD147 (mCD147), which creates an in vivo model that may better recapitulate physiological expression of hCD147 proteins at the molecular level compared to the existing and well-studied K18-hACE2-B6 (JAX) model. In addition, the hCD147KI-NSG mouse model allows further study of SARS-CoV-2 in the immunodeficiency condition which may assist our understanding of this virus in the context of high-risk populations in immunosuppressed states. Our data show (1) the human CD147 protein is expressed in various organs (including bronchiolar epithelial cells) in hCD147KI-NSG mice by immunohistochemical staining and flow cytometry; (2) hCD147KI-NSG mice are marginally sensitive to SARS-CoV-2 infection compared to WT-NSG littermates characterized by increased viral copies by qRT-PCR and moderate body weight decline compared to baseline; (3) a significant increase in leukocytes in the lungs of hCD147KI-NSG mice, compared to infected WT-NSG mice. Conclusions: hCD147KI-NSG mice are more sensitive to COVID-19 infection compared to WT-NSG mice. The hCD147KI-NSG mouse model can serve as an additional animal model for further interrogation whether CD147 serve as an independent functional receptor or accessory receptor for SARS-CoV-2 entry and immune responses. [ABSTRACT FROM AUTHOR]

Published

2022

28. MRSA Infection in the Thigh Muscle Leads to Systemic Disease, Strong Inflammation, and Loss of Human Monocytes in Humanized Mice

Author

Sophia Hung, Liane Dreher, Joachim Diessner, Stefan Schwarz, Knut Ohlsen, and Tobias Hertlein

Subjects

humanized mice, MRSA - methicillin-resistant Staphylococcus aureus, monocyte, bacterial infection model, inflammation, NSG, Immunologic diseases. Allergy, RC581-607

Abstract

MRSA (Methicillin-resistant Staphylococcus aureus) is the second-leading cause of deaths by antibiotic-resistant bacteria globally, with more than 100,000 attributable deaths annually. Despite the high urgency to develop a vaccine to control this pathogen, all clinical trials with pre-clinically effective candidates failed so far. The recent development of “humanized” mice might help to edge the pre-clinical evaluation closer to the clinical situation and thus close this gap. We infected humanized NSG mice (huNSG: (NOD)-scid IL2Rγnull mice engrafted with human CD34+ hematopoietic stem cells) locally with S. aureus USA300 LAC* lux into the thigh muscle in order to investigate the human immune response to acute and chronic infection. These mice proved not only to be more susceptible to MRSA infection than wild-type or “murinized” mice, but displayed furthermore inferior survival and signs of systemic infection in an otherwise localized infection model. The rate of humanization correlated directly with the severity of disease and survival of the mice. Human and murine cytokine levels in blood and at the primary site of infection were strongly elevated in huNSG mice compared to all control groups. And importantly, differences in human and murine immune cell lineages surfaced during the infection, with human monocyte and B cell numbers in blood and bone marrow being significantly reduced at the later time point of infection. Murine monocytes in contrast behaved conversely by increasing cell numbers. This study demonstrates significant differences in the in vivo behavior of human and murine cells towards S. aureus infection, which might help to sharpen the translational potential of pre-clinical models for future therapeutic approaches.

Published

2022

29. Host Immunity Influences the Composition of Murine Gut Microbiota.

Author

Van averbeke, Vincent, Berkell, Matilda, Mysara, Mohamed, Rodriguez-Ruiz, Juan Pablo, Xavier, Basil Britto, De Winter, Fien H. R., Jongers, Bart 's, Jairam, Ravi Kumar, Hotterbeekx, An, Goossens, Herman, Cohen, E. Suzanne, Malhotra-Kumar, Surbhi, and Kumar-Singh, Samir

Subjects

GUT microbiome, HUMORAL immunity, KNOCKOUT mice, SHORT-chain fatty acids, IMMUNITY, MICROBIAL diversity

Abstract

The influence of gut microbiota on host immunity is widely studied, and its disturbance has been linked to several immune-mediated disorders. Conversely, whether and how inherently disturbed canonical Th1 (pro-inflammatory) and/or Th2 (anti-inflammatory) immune pathways modify the host microbiome is not sufficiently investigated. Here, we characterized the humoral, cellular, and cytokine immunity, and associated alterations in gut microbiota of naïve wild-type mice (C57BL/6 and BALB/c), and mice with deficiencies in Th2 responses (IL-4Rα and IL-33 knockout mice) or in both Th1 and Th2 responses (NOD scid gamma, NSG mice). A global analysis by de novo clustering of 16S rRNA profiles of the gut microbiota independently grouped wild-type immunocompetent (C57BL/6 and BALB/c), Th2-deficient (IL-4Rα-/- and IL-33-/-), and severely immunodeficient (NSG) mice; where wild-type mice, but not Th2 or severely immunodeficient mice, were enriched in gut bacteria that produce short-chain fatty acids. These include members of phyla Firmicutes, Verrucomicrobia, and Bacteroidetes such as Lactobacillus spp., Akkermansia muciniphila , and Odoribacter spp. Further comparison of the two naïve wild-type mouse strains showed higher microbial diversity (Shannon), primarily linked to higher richness (Chao1), as well as a distinct difference in microbial composition (weighted UniFrac) in BALB/c mice compared to C57BL/6. T-cell and blood cytokine analyses demonstrated a Th1-polarization in naïve adaptive immunity in C57BL/6 animals compared to BALB/c mice, and an expected Th2 deficient cellular response in IL-4Rα-/- and IL-33-/- mice compared to its genetic background BALB/c strain. Together, these data suggest that alterations in the Th1/Th2 balance or a complete ablation of Th1/Th2 responses can lead to major alterations in gut microbiota composition and function. Given the similarities between the human and mouse immune systems and gut microbiota, our finding that immune status is a strong driver of gut microbiota composition has important consequences for human immunodeficiency studies. [ABSTRACT FROM AUTHOR]

Published

2022

30. Comprehensive identification and analysis of DELLA genes throughout the plant kingdom

Author

Pengfei Wang, Qianqian Zhang, Yingchun Chen, Yanxia Zhao, Fengshan Ren, Hongmei Shi, and Xinying Wu

Subjects

DELLA, GRAS domain, PSG, NSG, Orthologous, Paralogous, Botany, QK1-989

Abstract

Abstract Background DELLAs play key roles in plant gibberellin signaling pathways and are generally important in plant development and growth. However, DELLAs in many plant taxa have not yet been systematically analyzed. Results In our study, we searched for DELLA genes across 58 green plant genomes and found 181 DELLAs. Structure analysis showed some DELLA domains do not contain “D-E-L-L-A” sequences and instead contain similar domains, including DGLLA and DSLLH domains. “VHYNP” motifs in plant DELLAs comprise 23 types of sequences, while some DELLAs did not contain GRAS domains. In grape, we found that the DELLA protein GSVIVT01015465001 contains an F-box domain, while apple DELLA proteins MDP0000220512 and MDP0000403162 contain a WW domain and a BCIP domain, respectively. These DELLAs can be divided into 22 homologous groups and 17 orthologous groups, and 35 paralogous genes were identified. In total, 35 positively selected genes (PSGs) and 121 negatively selected genes (NSGs) were found among DELLAs based on selective pressure analysis, with an average K s of NSGs that was significantly higher than that of PSGs (P

Published

2020

31. Host Immunity Influences the Composition of Murine Gut Microbiota

Author

Vincent Van averbeke, Matilda Berkell, Mohamed Mysara, Juan Pablo Rodriguez-Ruiz, Basil Britto Xavier, Fien H. R. De Winter, Bart ‘s Jongers, Ravi Kumar Jairam, An Hotterbeekx, Herman Goossens, E. Suzanne Cohen, Surbhi Malhotra-Kumar, and Samir Kumar-Singh

Subjects

Th1-Th2 balance, BALB/c, C57BL/6, IL-4Rα knockout, IL-33 knockout, NSG, Immunologic diseases. Allergy, RC581-607

Abstract

The influence of gut microbiota on host immunity is widely studied, and its disturbance has been linked to several immune-mediated disorders. Conversely, whether and how inherently disturbed canonical Th1 (pro-inflammatory) and/or Th2 (anti-inflammatory) immune pathways modify the host microbiome is not sufficiently investigated. Here, we characterized the humoral, cellular, and cytokine immunity, and associated alterations in gut microbiota of naïve wild-type mice (C57BL/6 and BALB/c), and mice with deficiencies in Th2 responses (IL-4Rα and IL-33 knockout mice) or in both Th1 and Th2 responses (NOD scid gamma, NSG mice). A global analysis by de novo clustering of 16S rRNA profiles of the gut microbiota independently grouped wild-type immunocompetent (C57BL/6 and BALB/c), Th2-deficient (IL-4Rα-/- and IL-33-/-), and severely immunodeficient (NSG) mice; where wild-type mice, but not Th2 or severely immunodeficient mice, were enriched in gut bacteria that produce short-chain fatty acids. These include members of phyla Firmicutes, Verrucomicrobia, and Bacteroidetes such as Lactobacillus spp., Akkermansia muciniphila, and Odoribacter spp. Further comparison of the two naïve wild-type mouse strains showed higher microbial diversity (Shannon), primarily linked to higher richness (Chao1), as well as a distinct difference in microbial composition (weighted UniFrac) in BALB/c mice compared to C57BL/6. T-cell and blood cytokine analyses demonstrated a Th1-polarization in naïve adaptive immunity in C57BL/6 animals compared to BALB/c mice, and an expected Th2 deficient cellular response in IL-4Rα-/- and IL-33-/- mice compared to its genetic background BALB/c strain. Together, these data suggest that alterations in the Th1/Th2 balance or a complete ablation of Th1/Th2 responses can lead to major alterations in gut microbiota composition and function. Given the similarities between the human and mouse immune systems and gut microbiota, our finding that immune status is a strong driver of gut microbiota composition has important consequences for human immunodeficiency studies.

Published

2022

32. Performance Analysis of Femtocell on Channel Allocation

Author

Lalapeta, Mahesh, Basavaraju, Sagar, Kumar, Navin, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin (Sherman), Editorial Board Member, Stan, Mircea, Editorial Board Member, Xiaohua, Jia, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Kumar, Navin, editor, and Venkatesha Prasad, R., editor

Published

2019

33. From Global Governance to Global Disorder? Implications for Russia and China

Author

Yu, Bin, Bekkevold, Jo Inge, editor, and Lo, Bobo, editor

Published

2019

34. Technology Control Regimes

Author

Sultan, Adil and Sultan, Adil

Published

2019

35. A novel clinically relevant graft‐versus‐leukemia model in humanized mice.

Author

Jia, Bei, Zhao, Chenchen, Bayerl, Michael, Shike, Hiroko, Claxton, David F., Ehmann, W Christopher, Mineishi, Shin, Schell, Todd D., Zheng, Pan, Zhang, Yi, Shultz, Leonard D., Prabhu, K. Sandeep, Paulson, Robert F., and Zheng, Hong

Subjects

LABORATORY mice, HEMATOPOIETIC stem cell transplantation, HEMATOPOIETIC stem cells, ANIMAL disease models, ACUTE myeloid leukemia

Abstract

The prognosis for acute myeloid leukemia (AML) relapse post allogeneic hematopoietic stem cell transplantation (alloSCT) is dismal. Novel effective treatment is urgently needed. Clinical benefit of alloSCT greatly relies on the graft‐versus‐leukemia (GVL) effect. The mechanisms that mediate immune escape of leukemia (thus causing GVL failure) remain poorly understood. Studies of human GVL have been hindered by the lack of optimal clinically relevant models. Here, using our large, longitudinal clinical tissue bank that include AML cells and G‐CSF mobilized donor hematopoietic stem cells (HSCs), we successfully established a novel GVL model in humanized mice. Donor HSCs were injected into immune‐deficient NOD‐Cg‐PrkdcscidIL2rgtm1Wjl/SzJ (NSG) mice to build humanized mice. Immune reconstitution in these mice recapitulated some clinical scenario in the patient who received the corresponding HSCs. Allogeneic but HLA partially matched patient‐derived AML cells were successfully engrafted in these humanized mice. Importantly, we observed a significantly reduced (yet incomplete elimination of) leukemia growth in humanized mice compared with that in control NSG mice, demonstrating a functional (but defective) GVL effect. Thus, for the first time, we established a novel humanized mouse model that can be used for studying human GVL responses against human AML cells in vivo. This novel clinically relevant model provides a valuable platform for investigating the mechanisms of human GVL and development of effective leukemia treatments. [ABSTRACT FROM AUTHOR]

Published

2022

36. Modelli murini di patologie umane: dai topi immunodeficienti ai topi umanizzati, per una ricerca più mirata e predittiva nel processo di R&D preclinico Seconda parte.

Author

Barone, Domenico and Guarda, Franco

Abstract

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Published

2021

37. Investigating the response of paediatric leukaemia‐propagating cells to BCL‐2 inhibitors.

Author

Diamanti, Paraskevi, Ede, Benjamin C., Dace, Phoebe EI, Barendt, William J., Cox, Charlotte V., Hancock, Jeremy P., Moppett, John P., and Blair, Allison

Subjects

*BCL-2 genes, *LYMPHOBLASTIC leukemia, *ACUTE leukemia, *WESTERN immunoblotting

Abstract

Summary: Relapse of paediatric acute lymphoblastic leukaemia (ALL) may occur due to persistence of resistant cells with leukaemia‐propagating ability (LPC). In leukaemia, the balance of B‐cell lymphoma‐2 (BCL‐2) family proteins is disrupted, promoting survival of malignant cells and possibly LPC. A direct comparison of BCL‐2 inhibitors, navitoclax and venetoclax, was undertaken on LPC subpopulations from B‐cell precursor (BCP) and T‐cell ALL (T‐ALL) cases in vitro and in vivo. Responses were compared to BCL‐2 levels detected by microarray analyses and Western blotting. In vitro, both drugs were effective against most BCP‐ALL LPC, except CD34−/CD19− cells. In contrast, only navitoclax was effective in T‐ALL and CD34−/CD7− LPC were resistant to both drugs. In vivo, navitoclax was more effective than venetoclax, significantly improving survival of mice engrafted with BCP‐ and T‐ALL samples. Venetoclax was not particularly effective against T‐ALL cases in vivo. The proportions of CD34+/CD19−, CD34−/CD19− BCP‐ALL cells and CD34−/CD7− T‐ALL cells increased significantly following in vivo treatment. Expression of pro‐apoptotic BCL‐2 genes was lower in these subpopulations, which may explain the lack of sensitivity. These data demonstrate that some LPC were resistant to BCL‐2 inhibitors and sustained remission will require their use in combination with other therapeutics. [ABSTRACT FROM AUTHOR]

Published

2021

38. Development and function of human dendritic cells in humanized mice models.

Author

Anselmi, Giorgio, Helft, Julie, and Guermonprez, Pierre

Subjects

*HEMATOPOIETIC growth factors, *DENDRITIC cells, *HEMATOPOIETIC stem cells, *HEMATOPOIESIS, *HUMAN biology, *MICE

Abstract

• Human DCs develop efficiently in humanized mice models carrying human hematopoietic growth factors. • Multiple approaches can be implemented to ensure the delivery human growth factors in humanised models. • Tissue engineering is a promising approach to humanise central and peripheral niches supporting human DC development. • Humanized mice models are amenable to analyse the activation of human T cells by human DCs. Dendritic cells (DCs) are sentinel cells of the immune system arising from hematopoietic stem cells. DCs play a key role in the regulation of both adaptive and innate lymphocyte responses. As such, experimental models enabling a thorough analysis of human DCs development and function are needed. Humanized mice models (termed collectively as HIS mice, or human immune system mice models) provide unique opportunities to model human hematopoiesis and tackle the function of human immune cell types in vivo. Here, we review experimental approaches enabling to recapitulate the ontogeny of DC subsets in HIS mice and discuss studies addressing the biology of human DC subsets implementing HIS mice models. [ABSTRACT FROM AUTHOR]

Published

2020

39. Comprehensive identification and analysis of DELLA genes throughout the plant kingdom.

Author

Wang, Pengfei, Zhang, Qianqian, Chen, Yingchun, Zhao, Yanxia, Ren, Fengshan, Shi, Hongmei, and Wu, Xinying

Subjects

PLANT genes, PLANT genomes, PLANT development, PLANT growth, IDENTIFICATION

Abstract

Background: DELLAs play key roles in plant gibberellin signaling pathways and are generally important in plant development and growth. However, DELLAs in many plant taxa have not yet been systematically analyzed. Results: In our study, we searched for DELLA genes across 58 green plant genomes and found 181 DELLAs. Structure analysis showed some DELLA domains do not contain "D-E-L-L-A" sequences and instead contain similar domains, including DGLLA and DSLLH domains. "VHYNP" motifs in plant DELLAs comprise 23 types of sequences, while some DELLAs did not contain GRAS domains. In grape, we found that the DELLA protein GSVIVT01015465001 contains an F-box domain, while apple DELLA proteins MDP0000220512 and MDP0000403162 contain a WW domain and a BCIP domain, respectively. These DELLAs can be divided into 22 homologous groups and 17 orthologous groups, and 35 paralogous genes were identified. In total, 35 positively selected genes (PSGs) and 121 negatively selected genes (NSGs) were found among DELLAs based on selective pressure analysis, with an average Ks of NSGs that was significantly higher than that of PSGs (P < 0.05). Among the paralogous groups, CBI and Fop were significantly positively correlated with GC, GC1, GC2, GC12, and GC3, while CAI was significantly positively correlated with GC, GC1, GC12, and GC. The paralogous groups with ω values exceeding 1 had significantly higher Ka values. We also found some paralogous groups with ω values exceeding 1 that differed in their motifs. Conclusions: This study provides helpful insights into the evolution of DELLA genes and offers exciting opportunities for the investigation of DELLA functions in different plants. [ABSTRACT FROM AUTHOR]

Published

2020

40. 一例(3-地中海贫血病例中罕见基因突变的鉴定.

Author

陈扬, 王婵, 冯女, 刘海芳, 唐小燕, and 张淑芳

Abstract

Copyright of China Tropical Medicine is the property of China Tropical Medicine Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

41. Spectrum of Posttransplant Lymphoproliferations in NSG Mice and Their Association With EBV Infection After Engraftment of Pediatric Solid Tumors.

Author

Tillman, Heather, Vogel, Peter, Rogers, Tiffani, Akers, Walter, and Rehg, Jerold E.

Subjects

LYMPHOPROLIFERATIVE disorders, ORGANS (Anatomy), POPULATION, GRAFT versus host disease, TRANSPLANTATION of organs, tissues, etc., MICE, XENOGRAFTS

Abstract

Pediatric patients receiving solid organ transplants may develop lymphoproliferative diseases, including graft-versus-host disease (GvHD) and posttransplant lymphoproliferative diseases (PTLDs). We characterized lesions in 11 clinically ill NOD.Cg- Prkdcscid Il2rgtm1Wjl /SzJ (NSG) mice that received pediatric-patient-derived solid tumors (PDXs) and developed immunodeficiency-associated lymphoproliferations comparable to GvHD and PTLDs over a period of 46 to 283 days after implantation. Lymphoproliferations were diffusely positive for human-specific biomarkers, including NUMA1, CD45, and CD43, but lacked immunoreactivity for murine CD45. Human immune cells were CD3-positive, with subsets having immunoreactivity for CD4 and CD8 as well as PAX5, CD79a, and IRF4, resulting from populations of human T and B cells present within the xenotransplants. Tissues and organs infiltrated included mucocutaneous zones (oral cavity and perigenital and perianal regions), haired skin, tongue, esophagus, forestomach, thyroid, salivary glands, lungs, liver, kidneys, spleen, lymph nodes, bone marrow, and brain. In 4 of 5 mice with PTLD, Epstein-Barr virus (EBV)-encoded small RNAs (EBERs) were detected by in situ hybridization in PAX5+ human B cells associated with the PDX (n = 1/4) or with engrafted human immune cells at other anatomic locations (n = 4/11). One of the 4 mice had an EBV-associated human large B-cell lymphoma. NSG mice receiving xenotransplants can develop combinations of GvHD, EBV-driven PTLD, and B-cell lymphoma similar to those occurring in human pediatric patients. Therefore, pediatric xenotransplants should undergo histopathologic and immunohistochemical assessment upon collection to ensure that the specimen is not a lymphoma and does not contain lymphoma cells because these neoplasms can morphologically mimic small round blue cell pediatric solid tumors. [ABSTRACT FROM AUTHOR]

Published

2020

42. Engrafting Horse Immune Cells into Mouse Hosts for the Study of the Acute Equine Immune Responses

Author

Caroline Leeth, Janie Adkins, Alayna Hay, Sophie Bogers, Ashley Potter, Sharon Witonsky, and Jing Zhu

Subjects

equine, NSG, xenograft, lymphocyte response, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Immunological studies in the horse are frequently hampered by lack of environmental control, complicated study design, and ethical concerns when performing high risk studies. The purpose of the current study was to investigate the utility of a xenograft model for studying acute equine immune responses. Immunocompromised non obese diabetic (NOD). sudden combined immunodeficiency (scid).gamma-/- (NSG) mice were engrafted with either equine peripheral blood lymphocytes (PBLs) or equine bone marrow to determine an optimal protocol for equine lymphocyte engraftment. We found that both PBL and bone marrow grafts populated the host mice successfully. Bone marrow transplants were technically more challenging and required further processing to retard graft versus host disease. Graft vs host disease was apparent at 28 days post-PBL transfer and 56 days post-bone marrow transfer. The results of these studies support the use of mouse hosts to study acute equine immune responses and that different engraftment techniques can be used depending on the experimental design.

Published

2021

43. Design and validation of a disease network of inflammatory processes in the NSG-UC mouse model

Author

Henrika Jodeleit, Pia Palamides, Florian Beigel, Thomas Mueller, Eckhard Wolf, Matthias Siebeck, and Roswitha Gropp

Subjects

Ulcerative colitis, Disease network, Autoimmunity, Inflammatory bowel disease, NSG, NSG-UC, Medicine

Abstract

Abstract Background Ulcerative colitis (UC) is a highly progressive inflammatory disease that requires the interaction of epithelial, immune, endothelial and muscle cells and fibroblasts. Previous studies suggested two inflammatory conditions in UC-patients: ‘acute’ and ‘remodeling’ and that the design of a disease network might improve the understanding of the inflammatory processes. The objective of the study was to design and validate a disease network in the NOD-SCID IL2rγnull (NSG)-UC mouse model to get a better understanding of the inflammatory processes. Methods Leukocytes were isolated from the spleen of NSG-UC mice and subjected to flow cytometric analysis. RT-PCR and RNAseq analysis were performed from distal parts of the colon. Based on these analyses and the effects of interleukins, chemokines and growth factors described in the literature, a disease network was designed. To validate the disease network the effect of infliximab and pitrakinra was tested in the NSG-UC model. A clinical- and histological score, frequencies of human leukocytes isolated from spleen and mRNA expression levels from distal parts of the colon were determined. Results Analysis of leukocytes isolated from the spleen of challenged NSG-UC mice corroborated CD64, CD163 and CD1a expressing CD14+ monocytes, CD1a expressing CD11b+ macrophages and HGF, TARC, IFNγ and TGFß1 mRNA as inflammatory markers. The disease network suggested that a proinflammatory condition elicited by IL-17c and lipids and relayed by cytotoxic T-cells, Th17 cells and CD1a expressing macrophages and monocytes. Conversely, the remodeling condition was evoked by IL-34 and TARC and promoted by Th2 cells and M2 monocytes. Mice benefitted from treatment with infliximab as indicated by the histological- and clinical score. As predicted by the disease network infliximab reduced the proinflammatory response by suppressing M1 monocytes and CD1a expressing monocytes and macrophages and decreased levels of IFNγ, TARC and HGF mRNA. As predicted by the disease network inflammation aggravated in the presence of pitrakinra as indicated by the clinical and histological score, elevated frequencies of CD1a expressing macrophages and TNFα and IFNγ mRNA levels. Conclusions The combination of the disease network and the NSG-UC animal model might be developed into a powerful tool to predict efficacy or in-efficacy and potential mechanistic side effects.

Published

2017

44. In Vivo Murine-Matured Human CD3+ Cells as a Preclinical Model for T Cell-Based Immunotherapies

Author

Kevin G. Haworth, Christina Ironside, Zachary K. Norgaard, Willimark M. Obenza, Jennifer E. Adair, and Hans-Peter Kiem

Subjects

Immunotherapy, chimeric antigen receptor, CAR, mouse model, adoptive cellular immunotherapy, ACI, NSG, T cell therapy, HIV, MATCH mice, Genetics, QH426-470, Cytology, QH573-671

Abstract

Adoptive cellular immunotherapy is a promising and powerful method for the treatment of a broad range of malignant and infectious diseases. Although the concept of cellular immunotherapy was originally proposed in the 1990s, it has not seen successful clinical application until recent years. Despite significant progress in creating engineered receptors against both malignant and viral epitopes, no efficient preclinical animal models exist for rapidly testing and directly comparing these engineered receptors. The use of matured human T cells in mice usually leads to graft-versus-host disease (GvHD), which severely limits the effectiveness of such studies. Alternatively, adult apheresis CD34+ cells engraft in neonatal non-obese diabetic (NOD)-severe combined immunodeficiency (SCID)-common γ chain–/– (NSG) mice and lead to the development of CD3+ T cells in peripheral circulation. We demonstrate that these in vivo murine-matured autologous CD3+ T cells from humans (MATCH) can be collected from the mice, engineered with lentiviral vectors, reinfused into the mice, and detected in multiple lymphoid compartments at stable levels over 50 days after injection. Unlike autologous CD3+ cells collected from human donors, these MATCH mice did not exhibit GvHD after T cell administration. This novel mouse model offers the opportunity to screen different immunotherapy-based treatments in a preclinical setting.

Published

2017

45. India’s civil nuclear cooperation strategy: comparing approaches of Manmohan Singh and Narendra Modi’s cabinets

Author

K. A. Ananina

Subjects

india, nuclear energy, manmohan singh, narendra modi, united progressive alliance, national democratic alliance, 123 agreement, iaea, npt, nsg, international export control regimes, Political science (General), JA1-92

Abstract

The article compares the approaches undertaken by the government of former Indian prime-minister Manmohan Singh and that of Narendra Modi to promoting international cooperation in civil nuclear energy following the U.S.-India nuclear deal. The fi ndings indicate that Modi’s nuclear policy complements and, paradoxically, advances key initiatives of the opposing United Progressive Alliance. Specifi cally, Modi’s nuclear policy aims to foster solid ties with major global suppliers of uranium and atomic production while creating favourable external and internal environment conducive to India’s accessing international nuclear market where Indian companies would compete as suppliers of indigenous low and medium power reactors, varied nuclear equipment and materials as well as relevant services, for instance, on design, construction and commissioning of power plants.

Published

2017

46. Comparison of Mesenchymal Stromal Cells From Different Origins for the Treatment of Graft-vs.-Host-Disease in a Humanized Mouse Model

Author

Céline Grégoire, Caroline Ritacco, Muriel Hannon, Laurence Seidel, Loïc Delens, Ludovic Belle, Sophie Dubois, Sophie Vériter, Chantal Lechanteur, Alexandra Briquet, Sophie Servais, Gregory Ehx, Yves Beguin, and Frédéric Baron

Subjects

mesenchymal stromal cells, graft-vs.-host-disease, hematopoietic stem cell transplantation, xenogeneic, NSG, bone marrow, Immunologic diseases. Allergy, RC581-607

Abstract

Mesenchymal stromal cells (MSCs) have potent immunomodulatory properties that make them an attractive tool against graft- vs.-host disease (GVHD). However, despite promising results in phase I/II studies, bone marrow (BM-) derived MSCs failed to demonstrate their superiority over placebo in the sole phase III trial reported thus far. MSCs from different tissue origins display different characteristics, but their therapeutic benefits have never been directly compared in GVHD. Here, we compared the impact of BM-, umbilical cord (UC-), and adipose-tissue (AT-) derived MSCs on T-cell function in vitro and assessed their efficacy for the treatment of GVHD induced by injection of human peripheral blood mononuclear cells in NOD-scid IL-2Rγnull HLA-A2/HHD mice. In vitro, resting BM- and AT-MSCs were more potent than UC-MSCs to inhibit lymphocyte proliferation, whereas UC- and AT-MSCs induced a higher regulatory T-cell (CD4+CD25+FoxP3+)/T helper 17 ratio. Interestingly, AT-MSCs and UC-MSCs activated the coagulation pathway at a higher level than BM-MSCs. In vivo, AT-MSC infusions were complicated by sudden death in 4 of 16 animals, precluding an analysis of their efficacy. Intravenous MSC infusions (UC- or BM- combined) failed to significantly increase overall survival (OS) in an analysis combining data from 80 mice (hazard ratio [HR] = 0.59, 95% confidence interval [CI] 0.32–1.08, P = 0.087). In a sensitivity analysis we also compared OS in control vs. each MSC group separately. The results for the BM-MSC vs. control comparison was HR = 0.63 (95% CI 0.30–1.34, P = 0.24) while the figures for the UC-MSC vs. control comparison was HR = 0.56 (95% CI 0.28–1.10, P = 0.09). Altogether, these results suggest that MSCs from various origins have different effects on immune cells in vitro and in vivo. However, none significantly prevented death from GVHD. Finally, our data suggest that the safety profile of AT-MSC and UC-MSC need to be closely monitored given their pro-coagulant activities in vitro.

Published

2019

47. ENHANCING THE EFFICACY OF NUCLEAR NON-PROLIFERATION REGIME: SIGNIFICANCE OF PAKISTAN'S NSG MEMBERSHIP.

Author

Waseem, Rubina and Tahirkheli, Abeer Iftikhar

Subjects

NUCLEAR nonproliferation, NON-state actors (International relations), COMMUNITIES, PEACEBUILDING

Abstract

The various arrangements of the nonproliferation regime have so far failed to address the political and security concerns of the states that are not a party to the Nonproliferation Treaty. Initiatives like the US-India nuclear deal and the sole Nuclear Suppliers Group waiver to India are undermining the efficacy and creditability of the nonproliferation regime. There is a need that the global community must cognizant of the nonproliferation motives before it attempts to resolve the issue of nuclear proliferation. This paper, therefore, explores the reasons behind the biased-behavior of the international community regarding Nuclear Suppliers Group membership. It also draws claim that an unbiased approach can sustain regional peace and security viz-aviz strengthen the nonproliferation regime. It is also important to keep the threat of non-state actors in view, which are suspicious to acquire nuclear weapons-related technologies or materials for malicious objectives. In this regard, global efforts are required to ensure that all nuclear weapons-holder states remain engaged in nonproliferation efforts. Pakistan has always played a constructive role in nuclear nonproliferation and is part of many nonproliferation initiatives. Thus, it is imperative to bring Pakistan into the fold of the nonproliferation regime by taking it on-board in the Nuclear Suppliers Group. [ABSTRACT FROM AUTHOR]

Published

2019

48. Comparison of Mesenchymal Stromal Cells From Different Origins for the Treatment of Graft-vs.-Host-Disease in a Humanized Mouse Model.

Author

Grégoire, Céline, Ritacco, Caroline, Hannon, Muriel, Seidel, Laurence, Delens, Loïc, Belle, Ludovic, Dubois, Sophie, Vériter, Sophie, Lechanteur, Chantal, Briquet, Alexandra, Servais, Sophie, Ehx, Gregory, Beguin, Yves, and Baron, Frédéric

Subjects

GRAFT versus host disease prevention, MESENCHYMAL stem cells, STROMAL cells, HEMATOPOIETIC stem cell transplantation, BONE marrow

Abstract

Mesenchymal stromal cells (MSCs) have potent immunomodulatory properties that make them an attractive tool against graft- vs.-host disease (GVHD). However, despite promising results in phase I/II studies, bone marrow (BM-) derived MSCs failed to demonstrate their superiority over placebo in the sole phase III trial reported thus far. MSCs from different tissue origins display different characteristics, but their therapeutic benefits have never been directly compared in GVHD. Here, we compared the impact of BM-, umbilical cord (UC-), and adipose-tissue (AT-) derived MSCs on T-cell function in vitro and assessed their efficacy for the treatment of GVHD induced by injection of human peripheral blood mononuclear cells in NOD-scid IL-2Rγnull HLA-A2/HHD mice. In vitro , resting BM- and AT-MSCs were more potent than UC-MSCs to inhibit lymphocyte proliferation, whereas UC- and AT-MSCs induced a higher regulatory T-cell (CD4+CD25+FoxP3+)/T helper 17 ratio. Interestingly, AT-MSCs and UC-MSCs activated the coagulation pathway at a higher level than BM-MSCs. In vivo , AT-MSC infusions were complicated by sudden death in 4 of 16 animals, precluding an analysis of their efficacy. Intravenous MSC infusions (UC- or BM- combined) failed to significantly increase overall survival (OS) in an analysis combining data from 80 mice (hazard ratio [HR] = 0.59, 95% confidence interval [CI] 0.32–1.08, P = 0.087). In a sensitivity analysis we also compared OS in control vs. each MSC group separately. The results for the BM-MSC vs. control comparison was HR = 0.63 (95% CI 0.30–1.34, P = 0.24) while the figures for the UC-MSC vs. control comparison was HR = 0.56 (95% CI 0.28–1.10, P = 0.09). Altogether, these results suggest that MSCs from various origins have different effects on immune cells in vitro and in vivo. However, none significantly prevented death from GVHD. Finally, our data suggest that the safety profile of AT-MSC and UC-MSC need to be closely monitored given their pro-coagulant activities in vitro. [ABSTRACT FROM AUTHOR]

Published

2019

49. Vaginal and Rectal HIV Transmission in Humanized Mice

Author

Denton, Paul W., Chateau, Morgan L., Garcia, J. Victor, Poluektova, Larisa Y., editor, Garcia, J. Victor, editor, Koyanagi, Yoshio, editor, Manz, Markus G., editor, and Tager, Andrew M., editor

Published

2014

50. Human T-Cell Biology in a Mouse Environment

Author

Legrand, Nicolas, Spits, Hergen, Poluektova, Larisa Y., editor, Garcia, J. Victor, editor, Koyanagi, Yoshio, editor, Manz, Markus G., editor, and Tager, Andrew M., editor

Published

2014