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Completed NON-SBIR/STTR RPGS NIH (US)

Development of Allogeneic CAR T Cell Therapy for a Functional Cure of HIV Infection

$1.66M USD

Funder NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES
Recipient Organization Massachusetts General Hospital
Country United States
Start Date Jul 16, 2024
End Date Feb 28, 2025
Duration 227 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 11075035
Grant Description

Contact PD/PI: Allen, Todd M. Abstract: Antiretroviral therapy (ART) dramatically reduces HIV-associated morbidity and mortality (1). However, it is not a practical cure as eradication of HIV through ART alone is estimated to require over 60-years of treatment (1, 2). Numerous studies support that HIV-specific T cell responses are critical for efficient targeting

and elimination of HIV infected cells that are the source of chronic infection (3-10). Unfortunately, viral escape and a limited presence of functional virus-specific effector CD8+ T cells undermine the potency of these responses in chronically infected individuals (11-17). As such, there is growing interest in the development of

novel immunotherapeutic approaches to target and eliminate HIV-infected cells to achieve viral suppression in the absence of ART, a “functional cure”. Chimeric antigen receptor (CAR) T cell immunotherapies have demonstrated great promise against blood cancers (18-20), and now also demonstrate the potential to mitigate HIV/SIV infection in rhesus macaques

(21, 22) and humanized mice (23-28). We recently showed that HIV-specific Dual CD4-based CAR T cells co- expressing independent 4-1BB and CD28 costimulatory domains restrict HIV replication and reduce viral burden in humanized mice (23). However, current limitations of using autologous T cells to derive CAR T cell products

(TCPs), including time-consuming and costly manufacturing, insufficient or dysfunctional patient-derived T cells, and the inter-patient heterogeneity of TCPs, are barriers to their widespread application to human diseases. Development of allogeneic TCPs derived from healthy human donors, could, however, provide an ‘off-the-shelf’

treatment option to overcome these hurdles, as well as accelerate the use of CAR T cell therapies (29-38). Unfortunately, post-infusion elimination by the recipient’s immune system remains a major hurdle (39-41). Here we propose to leverage our expertise in CAR T cell biology (21, 23, 25, 26, 42, 43), base editing

(44-49), and a humanized mouse model of HIV infection (50-58) to develop an allogeneic CAR T cell therapy against HIV. Building on our preliminary data applying efficient multiplex base editing to CAR T cells, we hypothesize that both base editing approaches and identification of an optimal allogenic donor will enable the

development of an allorejection-resistant CD4-based CAR TCP with enhanced efficacy to eliminate HIV-infected cells and suppress HIV in the absence of ART. To test this hypothesis, we propose the following specific aims: Aim 1: Determine whether genetic modifications to allogeneic T cells can augment their in vivo

persistence. Aim 2: Identify characteristics of allogeneic HIV-specific CD4CAR T cells that associate with enhanced persistence and antiviral efficacy. Aim 3: Compare the in vivo HIV efficacy of allogeneic versus autologous HIV-specific CD4CAR T cells, incorporating Aim 1 and 2’s signatures of improved allogeneic functionality.

Project Summary/Abstract Page 6

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Massachusetts General Hospital

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