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R01CA283317

Project Grant

Overview

Grant Description
Determinants of toxicity and response to immune checkpoint blockade through integrative profiling of T cell clonal dynamics and plasma cell-free DNA - project summary.

Severe immune-related adverse events (IRAEs) occur in up to ~60% of melanoma patients treated with combination (anti-PD1 / anti-CTLA4) immune checkpoint inhibitors (ICIs), and cause treatment-related morbidity and mortality.

However, the pathophysiology underlying severe IRAE development remains unclear and there is no way in clinical practice to predict who will develop severe toxicities and who will not.

Based on our preliminary data, we hypothesize that clonally diverse activated CD4 memory T cells, and more specifically CXCR5–PD1HI peripheral helper T (TPH) cells, specifically underpin ICI-mediated toxicity in melanoma patients.

To address this hypothesis, we will perform flow cytometry, CyTOF, scRNA-seq, scV(D)J-seq and ImmunoSEQ® to broadly assess T and B cell states in peripheral blood to 1) determine whether TPH levels in pretreatment blood are predictive of severe IRAE development in melanoma patients treated with combination immunotherapy (Aim 1), and 2) determine whether TPH clonotypes preferentially expand in on-treatment blood and are enriched in IRAE skin lesions during combination immunotherapy in patients who develop severe toxicity (Aim 2).

While the prediction of severe IRAEs from peripheral blood will be important clinically, patients who experience some degree of toxicity have also been shown to have better durable immunotherapy response rates.

Therefore, it will be challenging to make clinical decisions regarding immunotherapy without also considering the probability of durable response.

We will thus utilize cell-free DNA methylation sequencing to predict 1) immunotherapy toxicity and 2) durable immunotherapy response concurrently from pre-treatment plasma using both cell-state signatures and an agnostic machine learning approach, which we will validate in held-out cohorts (Aim 3).

By doing so, we will lay the foundation for future clinical trials where immunotherapy decision-making is guided by the risk versus benefit of combination immunotherapy using the liquid biopsy biomarkers defined here.

In summary, this study will reveal determinants of IRAE development which will form the basis for liquid biopsy technology to predict both immunotherapy response and toxicity to make treatment safer and more personalized in the future.
Awardee
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Place of Performance
Rochester, Minnesota 559050001 United States
Geographic Scope
Single Zip Code
Analysis Notes
Amendment Since initial award the total obligations have increased 374% from $711,704 to $3,372,542.
Mayo Clinic was awarded Predictive Liquid Biopsy Biomarkers Immunotherapy Response Toxicity Project Grant R01CA283317 worth $3,372,542 from National Cancer Institute in June 2024 with work to be completed primarily in Rochester Minnesota United States. The grant has a duration of 5 years and was awarded through assistance program 93.396 Cancer Biology Research. The Project Grant was awarded through grant opportunity NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed).

Status
(Ongoing)

Last Modified 7/6/26

Period of Performance
6/7/24
Start Date
5/31/29
End Date
42.0% Complete

Funding Split
$3.4M
Federal Obligation
$0.0
Non-Federal Obligation
$3.4M
Total Obligated
100.0% Federal Funding
0.0% Non-Federal Funding

Activity Timeline

Interactive chart of timeline of amendments to R01CA283317

Subgrant Awards

Disclosed subgrants for R01CA283317

Transaction History

Modifications to R01CA283317

Additional Detail

Award ID FAIN
R01CA283317
SAI Number
R01CA283317-1937680439
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Nonprofit With 501(c)(3) IRS Status (Other Than An Institution Of Higher Education)
Awarding Office
75NC00 NIH National Cancer Institute
Funding Office
75NC00 NIH National Cancer Institute
Awardee UEI
Y2K4F9RPRRG7
Awardee CAGE
5A021
Performance District
MN-01
Senators
Amy Klobuchar
Tina Smith
Modified: 7/6/26