R01DA060692
Project Grant
Overview
Grant Description
Assessment of metformin for restoration of immune homeostasis in HIV+ and HIV- individuals with a history of injection drug use - project summary.
The combined opioid and stimulant use epidemic is an escalating public health emergency with numerous biological and psychological drivers and consequences, which are amplified in people with HIV (PWH) and other marginalized groups.
We and others have described significant immune alterations in PWH and individuals that inject opioids and/or stimulants including increased systemic inflammation and lymphocyte dysregulation, including among B cells.
This heightened inflammatory state and distorted B cell function likely contribute to increased risk and severity of infections and inflammatory co-morbidities including cardiovascular, kidney, liver, and autoimmune diseases.
Although anti-retroviral therapy (ART) suppresses HIV, its ability to restore immune homeostasis is incomplete, resulting in accelerated immunological aging and associated co-morbidities; subsequently development of adjunctive interventions to mitigate these complications is ongoing.
Active substance use, intoxication, and related behaviors associated with injection drug use can impact HIV viral dynamics and immune competency.
Among people who inject drugs (PWID) that do not have HIV, there is a high risk for acquiring HIV, clear indications of reduced effectiveness of HIV vaccines, and altered viral dynamics in the acute stage of HIV infection; these unique factors highlight the challenges of HIV vaccine development for PWID.
There is an unmet need for interventions that can restore immune homeostasis in PWID in order to improve responses to pathogens and minimize inflammatory-related co-morbidities.
Metformin (MTF), the most widely prescribed drug for type 2 diabetes (T2D), may be such an intervention.
Animal and human studies have demonstrated MTF's ability to reduce inflammation and enhance vaccine responses.
Our central hypothesis is that MTF can mitigate the inflammation and immune dysregulation that is prevalent in PWID including among PWH, restoring immune homeostasis and responsiveness.
This will be addressed through a placebo controlled, randomized clinical trial of MTF in PWH and non-PWH with a history of recent injection drug use including opioids and stimulants.
Assessment of hepatitis A/B and pneumococcal vaccine responses during this trial will allow examination of adaptive responses to pathogens of concern within these populations and serve as a surrogate for assessing their potential response to a future HIV vaccine.
Vaccine outcomes will provide a metric to complement the integrated behavioral and high-resolution functional analysis of systemic and mucosal inflammation and immunity, providing mechanistic insights relevant to HIV prevention and pathogenesis.
Our hypothesis will be addressed through the following aims:
1) Determine the ability of MTF to mitigate inflammation and improve vaccine response in PWID,
2) Determine the ability of MTF to normalize B cell phenotype and function in PWID, and
3) Determine the influence of MTF on mucosal inflammation and immunity.
The combined opioid and stimulant use epidemic is an escalating public health emergency with numerous biological and psychological drivers and consequences, which are amplified in people with HIV (PWH) and other marginalized groups.
We and others have described significant immune alterations in PWH and individuals that inject opioids and/or stimulants including increased systemic inflammation and lymphocyte dysregulation, including among B cells.
This heightened inflammatory state and distorted B cell function likely contribute to increased risk and severity of infections and inflammatory co-morbidities including cardiovascular, kidney, liver, and autoimmune diseases.
Although anti-retroviral therapy (ART) suppresses HIV, its ability to restore immune homeostasis is incomplete, resulting in accelerated immunological aging and associated co-morbidities; subsequently development of adjunctive interventions to mitigate these complications is ongoing.
Active substance use, intoxication, and related behaviors associated with injection drug use can impact HIV viral dynamics and immune competency.
Among people who inject drugs (PWID) that do not have HIV, there is a high risk for acquiring HIV, clear indications of reduced effectiveness of HIV vaccines, and altered viral dynamics in the acute stage of HIV infection; these unique factors highlight the challenges of HIV vaccine development for PWID.
There is an unmet need for interventions that can restore immune homeostasis in PWID in order to improve responses to pathogens and minimize inflammatory-related co-morbidities.
Metformin (MTF), the most widely prescribed drug for type 2 diabetes (T2D), may be such an intervention.
Animal and human studies have demonstrated MTF's ability to reduce inflammation and enhance vaccine responses.
Our central hypothesis is that MTF can mitigate the inflammation and immune dysregulation that is prevalent in PWID including among PWH, restoring immune homeostasis and responsiveness.
This will be addressed through a placebo controlled, randomized clinical trial of MTF in PWH and non-PWH with a history of recent injection drug use including opioids and stimulants.
Assessment of hepatitis A/B and pneumococcal vaccine responses during this trial will allow examination of adaptive responses to pathogens of concern within these populations and serve as a surrogate for assessing their potential response to a future HIV vaccine.
Vaccine outcomes will provide a metric to complement the integrated behavioral and high-resolution functional analysis of systemic and mucosal inflammation and immunity, providing mechanistic insights relevant to HIV prevention and pathogenesis.
Our hypothesis will be addressed through the following aims:
1) Determine the ability of MTF to mitigate inflammation and improve vaccine response in PWID,
2) Determine the ability of MTF to normalize B cell phenotype and function in PWID, and
3) Determine the influence of MTF on mucosal inflammation and immunity.
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Birmingham,
Alabama
352053701
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 204% from $1,086,368 to $3,300,550.
University Of Alabama At Birmingham was awarded
Immune Homeostasis Restoration in PWID with Metformin: Clinical Trial
Project Grant R01DA060692
worth $3,300,550
from National Institute on Drug Abuse in September 2024 with work to be completed primarily in Birmingham Alabama United States.
The grant
has a duration of 4 years 8 months and
was awarded through assistance program 93.279 Drug Abuse and Addiction Research Programs.
The Project Grant was awarded through grant opportunity High Priority HIV and Substance Use Research (R01 Clinical Trial Optional).
Status
(Ongoing)
Last Modified 5/21/26
Period of Performance
9/30/24
Start Date
5/31/29
End Date
Funding Split
$3.3M
Federal Obligation
$0.0
Non-Federal Obligation
$3.3M
Total Obligated
Activity Timeline
Transaction History
Modifications to R01DA060692
Additional Detail
Award ID FAIN
R01DA060692
SAI Number
R01DA060692-1710344518
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Public/State Controlled Institution Of Higher Education
Awarding Office
75N600 NIH National Insitute on Drug Abuse
Funding Office
75N600 NIH National Insitute on Drug Abuse
Awardee UEI
YND4PLMC9AN7
Awardee CAGE
0DV74
Performance District
AL-07
Senators
Tommy Tuberville
Katie Britt
Katie Britt
Modified: 5/21/26