RM1GM139690
Project Grant
Overview
Grant Description
Dysfunctional Myelopoiesis and Myeloid-Derived Suppressor Cells in Sepsis Pathobiology - Abstract
Earlier recognition of sepsis and improved implementation of best practices have significantly reduced in-hospital mortality over the past decade. As in-hospital survival has improved, the number of patients who do not fully recover has dramatically increased; nearly 50% of surgical sepsis patients will never fully recover and nearly one-third of these patients will die within 6 months.
Currently, one important critical question that vexes medical practitioners is: why do some surgical sepsis patients rapidly recover while others have poor long-term outcomes despite our best supportive efforts? Why are some of our comorbid (i.e. cancer, end-stage renal disease, etc.) populations at increased risk of nonrecovery?
Our overarching hypothesis is that the consequences of surgical sepsis (death and poor quality of life) are the result of an unresolved host leukocyte dyscrasia, similar to other chronic conditions such as cancer and autoimmune disease. Specifically, the preferential expansion and self-perpetuation of myeloid-derived suppressor cells (MDSCs), propagated in part through epigenetic changes in both bone marrow (BM) progenitors and MDSCs, drives non-acute infectious and noninfectious complications after sepsis.
This program will investigate in human surgical sepsis the underlying mechanisms that drive 'dysfunctional myelopoiesis', expansion of MDSC populations, suppressed T-cell quantities/function, and the development of patient's immunosuppressive/inflammatory endotypes. We will primarily focus on how MDSC expansion evolves over time in surgical sepsis patients who do or do not rapidly recover; how myelopoiesis is regulated transcriptionally and epigenetically in the bone marrow of trauma patients who are at high risk of developing sepsis.
There are four specific aims:
Aim 1. To test the hypothesis that perpetuation of host MDSCs after acute surgical sepsis drives poor long-term clinical outcomes in surgical sepsis, including but not limited to increased secondary infections.
Aim 2. To test the hypothesis that failure to recover from surgical sepsis is driven by modifiable epigenetic alterations in circulating MDSCs that induce and prolong immunosuppressive endotypes.
Aim 3. To identify the distinct immunosuppressive mechanisms of MDSCs from surgical sepsis patients over time, including immunometabolism, check-point inhibition, reactive oxygen and nitrogen production, and substrate availability.
Aim 4. To test the hypothesis that in response to an initial inflammatory stimulus, the increased risk of developing surgical sepsis is secondary to immunosuppression driven by a preferential bone marrow hematopoietic stem cell (HSC) expansion of MDSCs transcriptionally and epigenetically. This will be analyzed in severe blunt trauma patients at high risk for post-injury sepsis who manifest early changes in bone marrow progenitors and expansion of immunosuppressive MDSCs.
Using the established clinical infrastructure of the Sepsis and Critical Illness Research Center (SCIRC), a team science approach will be employed with collaborating PIs coming from multiple clinical and basic science disciplines. Ongoing regular biweekly meetings currently address program, resource and professional development, as well as time and effort allocation and conflict resolution.
Earlier recognition of sepsis and improved implementation of best practices have significantly reduced in-hospital mortality over the past decade. As in-hospital survival has improved, the number of patients who do not fully recover has dramatically increased; nearly 50% of surgical sepsis patients will never fully recover and nearly one-third of these patients will die within 6 months.
Currently, one important critical question that vexes medical practitioners is: why do some surgical sepsis patients rapidly recover while others have poor long-term outcomes despite our best supportive efforts? Why are some of our comorbid (i.e. cancer, end-stage renal disease, etc.) populations at increased risk of nonrecovery?
Our overarching hypothesis is that the consequences of surgical sepsis (death and poor quality of life) are the result of an unresolved host leukocyte dyscrasia, similar to other chronic conditions such as cancer and autoimmune disease. Specifically, the preferential expansion and self-perpetuation of myeloid-derived suppressor cells (MDSCs), propagated in part through epigenetic changes in both bone marrow (BM) progenitors and MDSCs, drives non-acute infectious and noninfectious complications after sepsis.
This program will investigate in human surgical sepsis the underlying mechanisms that drive 'dysfunctional myelopoiesis', expansion of MDSC populations, suppressed T-cell quantities/function, and the development of patient's immunosuppressive/inflammatory endotypes. We will primarily focus on how MDSC expansion evolves over time in surgical sepsis patients who do or do not rapidly recover; how myelopoiesis is regulated transcriptionally and epigenetically in the bone marrow of trauma patients who are at high risk of developing sepsis.
There are four specific aims:
Aim 1. To test the hypothesis that perpetuation of host MDSCs after acute surgical sepsis drives poor long-term clinical outcomes in surgical sepsis, including but not limited to increased secondary infections.
Aim 2. To test the hypothesis that failure to recover from surgical sepsis is driven by modifiable epigenetic alterations in circulating MDSCs that induce and prolong immunosuppressive endotypes.
Aim 3. To identify the distinct immunosuppressive mechanisms of MDSCs from surgical sepsis patients over time, including immunometabolism, check-point inhibition, reactive oxygen and nitrogen production, and substrate availability.
Aim 4. To test the hypothesis that in response to an initial inflammatory stimulus, the increased risk of developing surgical sepsis is secondary to immunosuppression driven by a preferential bone marrow hematopoietic stem cell (HSC) expansion of MDSCs transcriptionally and epigenetically. This will be analyzed in severe blunt trauma patients at high risk for post-injury sepsis who manifest early changes in bone marrow progenitors and expansion of immunosuppressive MDSCs.
Using the established clinical infrastructure of the Sepsis and Critical Illness Research Center (SCIRC), a team science approach will be employed with collaborating PIs coming from multiple clinical and basic science disciplines. Ongoing regular biweekly meetings currently address program, resource and professional development, as well as time and effort allocation and conflict resolution.
Awardee
Funding Goals
THE NATIONAL INSTITUTE OF GENERAL MEDICAL SCIENCES (NIGMS) SUPPORTS BASIC RESEARCH THAT INCREASES OUR UNDERSTANDING OF BIOLOGICAL PROCESSES AND LAYS THE FOUNDATION FOR ADVANCES IN DISEASE DIAGNOSIS, TREATMENT, AND PREVENTION. NIGMS ALSO SUPPORTS RESEARCH IN SPECIFIC CLINICAL AREAS THAT AFFECT MULTIPLE ORGAN SYSTEMS: ANESTHESIOLOGY AND PERI-OPERATIVE PAIN, CLINICAL PHARMACOLOGY ?COMMON TO MULTIPLE DRUGS AND TREATMENTS, AND INJURY, CRITICAL ILLNESS, SEPSIS, AND WOUND HEALING.? NIGMS-FUNDED SCIENTISTS INVESTIGATE HOW LIVING SYSTEMS WORK AT A RANGE OF LEVELSFROM MOLECULES AND CELLS TO TISSUES AND ORGANSIN RESEARCH ORGANISMS, HUMANS, AND POPULATIONS. ADDITIONALLY, TO ENSURE THE VITALITY AND CONTINUED PRODUCTIVITY OF THE RESEARCH ENTERPRISE, NIGMS PROVIDES LEADERSHIP IN SUPPORTING THE TRAINING OF THE NEXT GENERATION OF SCIENTISTS, ENHANCING THE DIVERSITY OF THE SCIENTIFIC WORKFORCE, AND DEVELOPING RESEARCH CAPACITY THROUGHOUT THE COUNTRY.
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Gainesville,
Florida
326115500
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 455% from $1,527,851 to $8,479,606.
University Of Florida was awarded
Dysfunctional Myelopoiesis & MDSCs in Sepsis
Project Grant RM1GM139690
worth $8,479,606
from the National Institute of General Medical Sciences in May 2021 with work to be completed primarily in Gainesville Florida United States.
The grant
has a duration of 5 years and
was awarded through assistance program 93.859 Biomedical Research and Research Training.
The Project Grant was awarded through grant opportunity Collaborative Program Grant for Multidisciplinary Teams (RM1).
Status
(Ongoing)
Last Modified 5/5/25
Period of Performance
5/1/21
Start Date
4/30/26
End Date
Funding Split
$8.5M
Federal Obligation
$0.0
Non-Federal Obligation
$8.5M
Total Obligated
Activity Timeline
Transaction History
Modifications to RM1GM139690
Additional Detail
Award ID FAIN
RM1GM139690
SAI Number
RM1GM139690-3632575248
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Public/State Controlled Institution Of Higher Education
Awarding Office
75NS00 NIH National Institute of General Medical Sciences
Funding Office
75NS00 NIH National Institute of General Medical Sciences
Awardee UEI
NNFQH1JAPEP3
Awardee CAGE
5E687
Performance District
FL-03
Senators
Marco Rubio
Rick Scott
Rick Scott
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| National Institute of General Medical Sciences, National Institutes of Health, Health and Human Services (075-0851) | Health research and training | Grants, subsidies, and contributions (41.0) | $3,375,478 | 100% |
Modified: 5/5/25