Human immunodeficiency virus infection induces lymphoid fibrosis in the BM-liver-thymus-spleen humanized mouse model
Jasmine Samal, Samantha Kelly, Ali Na-Shatal, Abdallah Elhakiem, Antu Das, Ming Ding, Anwesha Sanyal, Phalguni Gupta, Kevin Melody, Brad Roland, Watfa Ahmed, Aala Zakir, Moses Bility
Jasmine Samal, Samantha Kelly, Ali Na-Shatal, Abdallah Elhakiem, Antu Das, Ming Ding, Anwesha Sanyal, Phalguni Gupta, Kevin Melody, Brad Roland, Watfa Ahmed, Aala Zakir, Moses Bility
View: Text | PDF
Resource and Technical Advance AIDS/HIV

Human immunodeficiency virus infection induces lymphoid fibrosis in the BM-liver-thymus-spleen humanized mouse model

Abstract

A major pathogenic feature associated with HIV infection is lymphoid fibrosis, which persists during antiretroviral therapy (ART). Lymphoid tissues play critical roles in the generation of antigen-specific immune response, and fibrosis disrupts the stromal network of lymphoid tissues, resulting in impaired immune cell trafficking and function, as well as immunodeficiency. Developing an animal model for investigating the impact of HIV infection–induced lymphoid tissue fibrosis on immunodeficiency and immune cell impairment is critical for therapeutics development and clinical translation. Said model will enable in vivo mechanistic studies, thus complementing the well-established surrogate model of SIV infection–induced lymphoid tissue fibrosis in macaques. We developed a potentially novel human immune system–humanized mouse model by coengrafting autologous fetal thymus, spleen, and liver organoids under the kidney capsule, along with i.v. injection of autologous fetal liver–derived hematopoietic stem cells, thus termed the BM-liver-thymus-spleen (BLTS) humanized mouse model. BLTS humanized mouse model supports development of human immune cells and human lymphoid organoids (human thymus and spleen organoids). HIV infection in BLTS humanized mice results in progressive fibrosis in human lymphoid tissues, which was associated with immunodeficiency in the lymphoid tissues, and lymphoid tissue fibrosis persists during ART, thus recapitulating clinical outcomes.

Authors

Jasmine Samal, Samantha Kelly, Ali Na-Shatal, Abdallah Elhakiem, Antu Das, Ming Ding, Anwesha Sanyal, Phalguni Gupta, Kevin Melody, Brad Roland, Watfa Ahmed, Aala Zakir, Moses Bility

×

Figure 5

HIV replication kinetics in the BLTS humanized mouse model.

Options: View larger image (or click on image) Download as PowerPoint
HIV replication kinetics in the BLTS humanized mouse model. (A) Kinetics...
(A) Kinetics of HIV-1 replication (HIV RNA genome copies per ml, HIV GE copies per ml) in the blood following inoculation at 1 × 105 IU per mouse in BLTS humanized mice (n = 4 per group). (B) Kinetics of HIV-1 replication (HIV RNA genome copies per ml, HIV GE copies per ml) in the blood of chronic HIV-infected BLTS humanized mice following intervention with triple antiretroviral drug therapy (ART) (n = 6 per group) and subsequent cessation after 4 weeks of treatment (n = 3 per group); viral load was allowed to rebound over a period of 8 weeks. (C) Chronic HIV infection in BLTS humanized mice was allowed to develop over a period of 8 weeks, and animals were subsequently treated with ART for 4 weeks, at which point replication-competent HIV in human resting CD4+ T cells from the human spleen organoid of individual mice were analyzed (n = 2) using the TZA method, with CD4+ T cells activated using CD3/CD28 stimulation; age-matched mock-inoculated BLTS humanized mouse served as control (ND abbreviates not detectable). Data is presented as mean values ± SEM.