R01CA294584
Project Grant
Overview
Grant Description
Mechanisms of JAG1-mediated immune suppression in the pancreatic cancer microenvironment - Pancreatic cancer (PANCAN) is notorious for its resistance to therapy including immunotherapy, which is largely contributed by a suppressive tumor microenvironment. Targeting molecular pathways integral to PANCAN resistance to current therapy remains an unmet need.
Notch signaling regulates PANCAN growth, metastasis, and the tumor microenvironment. While other studies have shown that Notch signaling in macrophage and myeloid derived suppressor cells plays an immune-suppressive role in breast cancer and lung cancer, for example, our proposal will study previously unrecognized role of JAG1 in the regulation of the metabolic fitness of conventional dendritic cells (CDCs) that underlies the poor anti-tumor responses to immunotherapy.
The overarching objective of this application is to define if targeting JAGGED1 (JAG1), a Notch ligand, whose expression correlates with a worse prognosis and inversely correlates with BATF3, essential for type I CDC (CDC1) development, could reverse the immunotherapy resistance in tumors with poor tumor-infiltrating CDC1 and T cells. CDC1 cells present tumor antigens to tumor-killing T cells and thus play a critical role in supporting T cell anti-tumor immunity in immunotherapy.
However, dendritic cells are present in low numbers and often display functional suppression in pancreatic cancer patients. Our recent work revealed that JAG1 functions as an inhibitory Notch ligand for CDC1 development as well as CDC metabolic fitness. We also found that ablating JAG1 induced marked tumor regression and prolonged tumor-bearing mice long-term survival by increasing and reviving tumor-infiltrating DCs and Notch-activated tumor-killing T cells.
We will test our central hypothesis that JAG1 promotes PANCAN therapy resistance by suppressing CDC1 metabolic fitness and CD8 T cell anti-tumor response through three interrelated aims. In Aim 1, we will test if anti-JAG1 blocking antibody could sensitize resistant tumors to immunotherapy. In Aim 2, we will investigate the mechanism by which JAG1 impairs CDC metabolic fitness essential for anti-tumor activation. Aim 3 will focus on the mechanism of anti-tumor T cell reinvigoration mediated by JAG1 ablation/blockade.
We will use a combination of the autochthonous KPC mouse model, immunophenotypically defined KPC orthotopic tumors, human PANCAN organoids/myeloid cell coculture, and human PANCAN specimens. We will employ cutting-edge mass cytometry to investigate the interplay between tumor cells and the surrounding immune cells and the tumor stroma.
We will integrate the immunophenotyping and the spatial transcriptomics of rare immune cell populations with clinical and histopathological information to correlate molecular findings with patient outcomes. This work is innovative as we illuminate a novel function of JAG1 in the maintenance of PANCAN therapy resistance and explore its potential as a novel immunomodulatory treatment for this deadly disease.
Notch signaling regulates PANCAN growth, metastasis, and the tumor microenvironment. While other studies have shown that Notch signaling in macrophage and myeloid derived suppressor cells plays an immune-suppressive role in breast cancer and lung cancer, for example, our proposal will study previously unrecognized role of JAG1 in the regulation of the metabolic fitness of conventional dendritic cells (CDCs) that underlies the poor anti-tumor responses to immunotherapy.
The overarching objective of this application is to define if targeting JAGGED1 (JAG1), a Notch ligand, whose expression correlates with a worse prognosis and inversely correlates with BATF3, essential for type I CDC (CDC1) development, could reverse the immunotherapy resistance in tumors with poor tumor-infiltrating CDC1 and T cells. CDC1 cells present tumor antigens to tumor-killing T cells and thus play a critical role in supporting T cell anti-tumor immunity in immunotherapy.
However, dendritic cells are present in low numbers and often display functional suppression in pancreatic cancer patients. Our recent work revealed that JAG1 functions as an inhibitory Notch ligand for CDC1 development as well as CDC metabolic fitness. We also found that ablating JAG1 induced marked tumor regression and prolonged tumor-bearing mice long-term survival by increasing and reviving tumor-infiltrating DCs and Notch-activated tumor-killing T cells.
We will test our central hypothesis that JAG1 promotes PANCAN therapy resistance by suppressing CDC1 metabolic fitness and CD8 T cell anti-tumor response through three interrelated aims. In Aim 1, we will test if anti-JAG1 blocking antibody could sensitize resistant tumors to immunotherapy. In Aim 2, we will investigate the mechanism by which JAG1 impairs CDC metabolic fitness essential for anti-tumor activation. Aim 3 will focus on the mechanism of anti-tumor T cell reinvigoration mediated by JAG1 ablation/blockade.
We will use a combination of the autochthonous KPC mouse model, immunophenotypically defined KPC orthotopic tumors, human PANCAN organoids/myeloid cell coculture, and human PANCAN specimens. We will employ cutting-edge mass cytometry to investigate the interplay between tumor cells and the surrounding immune cells and the tumor stroma.
We will integrate the immunophenotyping and the spatial transcriptomics of rare immune cell populations with clinical and histopathological information to correlate molecular findings with patient outcomes. This work is innovative as we illuminate a novel function of JAG1 in the maintenance of PANCAN therapy resistance and explore its potential as a novel immunomodulatory treatment for this deadly disease.
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Houston,
Texas
770302703
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 382% from $687,824 to $3,316,119.
The Methodist Hospital Research Institute was awarded
Targeting JAG1 for PANCAN Immunotherapy Resistance
Project Grant R01CA294584
worth $3,316,119
from National Cancer Institute in July 2024 with work to be completed primarily in Houston Texas 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
7/1/24
Start Date
6/30/29
End Date
Funding Split
$3.3M
Federal Obligation
$0.0
Non-Federal Obligation
$3.3M
Total Obligated
Activity Timeline
Subgrant Awards
Disclosed subgrants for R01CA294584
Transaction History
Modifications to R01CA294584
Additional Detail
Award ID FAIN
R01CA294584
SAI Number
R01CA294584-1357121174
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
XJUCJAYJWYV1
Awardee CAGE
4AGX4
Performance District
TX-09
Senators
John Cornyn
Ted Cruz
Ted Cruz
Modified: 7/6/26