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Cancer Immunoprevention Network (CIP-Net)

Wildtype and frameshift mutant Asxl1 mRNA detected by in situ hybridization using RNAScope technology in organoids derived from a mismatch repair-deficient mouse intestinal tumor.

The Cancer Immunoprevention Network (CIP-Net) supports the development of approaches that leverage the immune system to prevent cancers. Research in CIP-Net is advancing a deeper understanding of basic mechanisms of immunoprevention and promoting the discovery of novel immunoprevention strategies. Both the National Cancer Institute Division of Cancer Prevention and the Division of Cancer Biology support researchers in this network.

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About the Cancer Immunoprevention Network

CIP-Net supports projects from basic through translational preclinical research with an emphasis on exploring the biology of early malignancy and addressing the research gap between immunoprevention and immunotherapy.

The overall research objectives of the Network are to:

  • Discover novel immunoprevention pathways and targets
  • Elucidate immune responses to the earliest stages of carcinogenesis
  • Preclinical development and testing of interventions (agents/vaccines)
  • Investigate mechanisms of efficacy and potential side-effects of precision cancer prevention-interception strategies
  • Develop and optimize immunoprevention models
  • Define immune mechanisms of preventive cancer vaccines and immunomodulatory agents

Candidate agents and vaccines that emerge from CIP-Net research may move forward to the PREVENT program for further preclinical development towards clinical trials.

Grantee Details

PI Name PI Organization Title Grant Number Program Official
Winger, Joseph Giles

Duke University
United States

 Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer 5R01CA291768-02 Brennan Streck, Ph.D., RN, M.P.H.
Winger, Joseph Giles

Duke University
United States

 Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer 5R01CA291768-02 Brennan Streck, Ph.D., RN, M.P.H.
Winger, Joseph Giles

Duke University
United States

 Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer 5R01CA291768-02 Brennan Streck, Ph.D., RN, M.P.H.
Winters-Stone, Kerri M

Oregon Health & Science University
United States

 Patterns and predictors of symptoms, falls, and functioning across treatment and recovery in patients treated with neurotoxic chemotherapy for cancer 5R01CA248059-05 Goli Samimi, Ph.D., M.P.H.
Winters-Stone, Kerri M

Oregon Health & Science University
United States

 Patterns and predictors of symptoms, falls, and functioning across treatment and recovery in patients treated with neurotoxic chemotherapy for cancer 5R01CA248059-05 Goli Samimi, Ph.D., M.P.H.
Wolpin, Brian Matthew

Dana-Farber Cancer Inst
United States

 Altered metabolism and machine learning for pancreatic cancer early detection 5U01CA210171-09 Matthew Young, Ph.D.
Wong, David T

University Of California Los Angeles
United States

 EFIRM Liquid Biopsy Research Laboratory: Early Lung Cancer Assessment 4U01CA233370-08 Nicholas Hodges, Ph.D.
Wright, Alexi A

Dana-Farber Cancer Inst
United States

 Randomized trial of REVITALIZE: A telehealth intervention to reduce fatigue interference among adults with advanced ovarian cancer on PARP inhibitors 5R01CA289547-02 Goli Samimi, Ph.D., M.P.H.
Wright, Alexi A

Dana-Farber Cancer Inst
United States

 Randomized trial of REVITALIZE: A telehealth intervention to reduce fatigue interference among adults with advanced ovarian cancer on PARP inhibitors 5R01CA289547-02 Goli Samimi, Ph.D., M.P.H.
Wu, Yun

State University Of New York At Buffalo
United States

 Lung Cancer Early Detection and Immunotherapy Response Prediction and Monitoring with an Exo-PROS Liquid Biopsy Assay 4R01CA272827-04 Christos Patriotis, Ph.D., M.Sc.
Xiao, Yi

University Of Tx Md Anderson Can Ctr
United States

 Exploring new strategy for breast cancer immunoprevention by targeting histamine receptor H1 5R21CA286318-02 Anda Vlad, M.D., Ph.D.
Xu, Chunhui

Emory University
United States

 High-throughput assessment of chemotherapy-induced cardiotoxicity in 3D human cardiomyocytes 1R21CA285254-01A1 Eileen Dimond, R.N., M.S.
Xu, Chunhui

Emory University
United States

 High-throughput assessment of chemotherapy-induced cardiotoxicity in 3D human cardiomyocytes 1R21CA285254-01A1 Eileen Dimond, R.N., M.S.
Xu, Xiangxi Mike

University Of Miami School Of Medicine
United States

 Countering microtubule stabilization within hair follicles in ovarian cancer chemotherapy 5R01CA286527-02 Rachel Altshuler, Ph.D.
Xu, Xiangxi Mike

University Of Miami School Of Medicine
United States

 Countering microtubule stabilization within hair follicles in ovarian cancer chemotherapy 5R01CA286527-02 Rachel Altshuler, Ph.D.

Program Contact(s)

Altaf Mohammed, Ph.D.
NCI DCP Chemopreventive Agent Development Research Group
Email: altaf.mohammed@nih.gov
Phone: 240-276-6082
Room: 5E554