# Cellular and Molecular Studies of Bone Marrow Transplant

> **NIH NIH P01** · ICAHN SCHOOL OF MEDICINE AT MOUNT SINAI · 2020 · $2,257,066

## Abstract

OVERALL SUMMARY/ABSTRACT
Allogeneic BMT is an increasingly important treatment for hematologic cancers such as leukemia
and lymphoma. GVHD remains a major cause of morbidity and mortality after allogeneic BMT and
prevents this curative therapy from wider application. Gastrointestinal (GI) GVHD is the most difficult of
the three principal GVHD target organs to treat successfully. The three projects of this PPG focus on
GI GVHD during this next cycle, and it provides powerful unifying and integrating themes for the entire
PPG.
Project 1 addresses significant lacunae in our understanding of the role of intestinal epithelial cells
(IECs) and their ability to resist donor T-cell-mediated damage in the context of GI microbiota. The
microbial metabolite butyrate enhances histone acetylation and modulates IEC sensitivity to GVHD
damage. This project will pursue three specific aims (SA): 1) To determine the pathways of sensing of
microbial metabolite butyrate by epithelial cells and its impact on GVHD; 2) To analyze the molecular
mechanisms for butyrate mediated resistance of IECs after allogeneic BMT. 3) To determine the impact
of butyrate administration on GVL. SA 2 has been revised to include a subaim analyzing the effect of
antibiotics on HDAC inhibition of GVHD. SA 2 makes extensive use of new services provided by Cores
2 and 3. Both SA 2 and SA 3 are closely coordinated with similar new SA's in Project 2, which uses the
same antibiotic regimens and tumor models.
Project 2 will investigate Regenerative 3 alpha (REG3A), a biomarker that this PPG has validated as
specific for GI GVHD. This project has generated extensive preliminary data to support its central
hypothesis that REG3A or (its mouse homologue Reg3γ) functions as a master regulator of GVHD
pathophysiology. Project 2 will pursue three specific aims: 1) To define the mechanisms by which
Reg3γ reduces GVHD, 2) To determine if enterococcus drives GVHD, and 3) To determine the effects
of both antibiotic treatment and therapeutic probiotics on the GVHD severity. SA 1 has been revised to
include a subaim investigating the effect of Reg3γ on GVL effects. Project 1 uses the same two tumor
bioluminescent models, and donor/recipient strain combinations as Project 1. SA 2 is entirely new and
examines the mechanism by which shifts in the microbiome drive GVHD, using sophisticated
gnotobiotic model systems and metagenomic sequencing. SA 3 includes a new subaim investigating
the mechanism by which systemic antibiotics increase the severity of GVHD.
Project 3 has developed and validated a novel scoring system of GVHD at its onset using biomarkers
(including REG3A) that categorizes patients according to predicted six month NRM. This novel grading
system identifies high risk GVHD at onset independently of clinical presentation. It will test the central
hypothesis that risk-adapted GVHD treatment will reduce the development of steroid-refractory GI
GVHD in two specific aims: 1) To conduct a clinical trial usi...

## Key facts

- **NIH application ID:** 10005915
- **Project number:** 5P01CA039542-32
- **Recipient organization:** ICAHN SCHOOL OF MEDICINE AT MOUNT SINAI
- **Principal Investigator:** JAMES L. M. FERRARA
- **Activity code:** P01 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2020
- **Award amount:** $2,257,066
- **Award type:** 5
- **Project period:** 1997-09-10 → 2022-08-31

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10005915

## Citation

> US National Institutes of Health, RePORTER application 10005915, Cellular and Molecular Studies of Bone Marrow Transplant (5P01CA039542-32). Retrieved via AI Analytics 2026-05-29 from https://api.ai-analytics.org/grant/nih/10005915. Licensed CC0.

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