# Optimization of CMV Vector CD8+ T Cell Response Programming by Modification of CMV-Encoded Molecular Mechanisms That Interfere with Unconventional CD8+ T Cell Response Priming

> **NIH NIH U19** · OREGON HEALTH & SCIENCE UNIVERSITY · 2021 · $282,216

## Abstract

Project 4 Summary
Development of a safe and efficacious vaccine that prevents HIV infection is still an unmet need. We have
demonstrated that a Cytomegalovirus (CMV)-vectored vaccine expressing SIV antigens elicits high frequency,
broadly distributed, effector-memory, SIV-specific CD4+ and CD8+ T cell responses that mediate complete
(“control and clear”) protection of 50-60% of vaccinated RM against repeated mucosal challenge with highly
pathogenic SIVmac239. Recent studies have demonstrated that only RhCMV vectors lacking the RhCMV
homologs of the HCMV UL128 and UL130 genes are able to mediate this remarkable efficacy, despite similar
immunogenicity of the UL128/UL130-intact vectors in terms of magnitude, distribution and functional
differentiation. We further determined that the UL128/UL130-deletion had a major effect on the epitope
targeting of the RhCMV vector-elicited CD8+ T cells: whereas the CD8+ T cells elicited by UL128/UL130-intact
RhCMV vectors are conventionally MHC-Ia-restricted, the CD8+ T cells elicited by UL128/UL130-deleted
RhCMV vectors are entirely restricted by either MHC-II or non-classical MHC-E. We have also determined that
the MHC-II- and MHC-E-restricted components of the protective immune responses are independently
regulated, and thus separable. Since a protective HCMV/HIV vectored vaccine will almost certainly need to
induce unconventional T cell responses in people in order to mediate protection, effective clinical translation of
our pre-clinical findings will depend upon the identification of the protective component of the unconventional
responses (Project 1), and the delineation of the virologic mechanisms by which RhCMV elicits these
efficacious responses (Projects 2-4). We have determined that UL128 and UL130 contribute to unconventional
response programming by at least 2 different mechanisms: an effect on vector tropism mediated by the
contribution of both UL128 and UL130 to the pentameric receptor complex (PRC) and a PRC-independent
mechanism by which either UL128 or UL130 can inhibit MHC-E-restricted CD8+ T cell response priming in
myeloid-derived cells. The effect of tropism on CMV vector response programming is addressed in Project 2. In
Project 4 we first seek to identify the specific motifs in the UL128 and UL130 proteins which block MHC-E-
restricted CD8+ T cell priming with the goal of mutating these regions to abrogate their MHC-E-response
inhibition while retaining PRC function. Since MHC-E-restricted response priming is myeloid cell-dependent,
whereas MHC-II responses are disfavored by vector infection of myeloid cells, this should result in a vector that
preferentially elicits MHC-E-restricted responses. Second, since HCMV lacking UL128 and UL130 fails to elicit
unconventional T cell responses in RM, its possible that HCMV encodes other genes that block unconventional
CD8+ T cell responses. Therefore, utilizing a deletion strategy we will ascertain whether any non-essential
HCMV genes have this activ...

## Key facts

- **NIH application ID:** 10105281
- **Project number:** 5U19AI128741-05
- **Recipient organization:** OREGON HEALTH & SCIENCE UNIVERSITY
- **Principal Investigator:** DANIEL N STREBLOW
- **Activity code:** U19 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2021
- **Award amount:** $282,216
- **Award type:** 5
- **Project period:** 2017-03-02 → 2023-02-28

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10105281

## Citation

> US National Institutes of Health, RePORTER application 10105281, Optimization of CMV Vector CD8+ T Cell Response Programming by Modification of CMV-Encoded Molecular Mechanisms That Interfere with Unconventional CD8+ T Cell Response Priming (5U19AI128741-05). Retrieved via AI Analytics 2026-05-22 from https://api.ai-analytics.org/grant/nih/10105281. Licensed CC0.

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