SBIR-STTR Award

O-Glycan-Dependent Immunotherapy for Cancer
Award last edited on: 8/30/2021

Sponsored Program
STTR
Awarding Agency
NIH : NCI
Total Award Amount
$300,614
Award Phase
1
Solicitation Topic Code
395
Principal Investigator
Michael Demetriou

Company Information

Glytr Therapeutics Inc

5151 California Avenue Unit 150
Irvine, CA 92617
   (916) 612-9988
   N/A
   www.glytrtherapeutics.com

Research Institution

University of California - Irvine

Phase I

Contract Number: 1R41CA233111-01A1
Start Date: 9/18/2018    Completed: 8/31/2019
Phase I year
2018
Phase I Amount
$298,530
For decades, the treatment of cancer has relied on surgical resection, chemotherapy and/or radiotherapy. Recently, a number of immune based therapies have provided promising new approaches for cancer treatment. The two most potent immunotherapies are monoclonal antibody (mAB) based bi-specific proteins (eg Bi- specific T cell engagers – BiTE) and engineered Chimeric Antigen Receptor T cells (CAR T). Both act by inducing T cell mediated killing of cancer cells and have shown remarkable clinical activity, with complete response rates as high as ~90% for B cell malignancies. However, applying these two therapeutic approaches to the vast majority of cancer types is prevented by multiple factors. First, there are only a small number of known cell-surface proteins that are sufficiently specific to cancer to safely allow targeting by antibodies. This is particularly true for solid cancers, where unlike hematopoietic malignancies, loss of healthy cells cannot be readily replenished by stem cell progenitors. Second, as each individual bi-specific protein and/or CAR T cell can only target a single cancer type, different bi-specific and/or CAR T cells will need to be developed for each cancer type. This greatly increases development time and costs. Third, neither therapy is able to effectively target the most abundant and widely expressed cancer antigens known, namely Tumor associated cancer antigens (TACA's). Many cancer specific antigens are not proteins, but rather complex carbohydrates that have limited or no expression in normal tissues. Indeed, altered glycosylation is a near universal feature of cancer. However, generation of monoclonal antibodies specific to complex carbohydrates has proven to be very challenging, greatly limiting their usefulness as targets for cancer immunotherapy. Here we propose to address these issues and develop a novel class of immunotherapeutics that target a carbohydrate antigen common to the vast majority of solid and hematopoietic cancers but not expressed in normal cells. We have termed these molecules as Glycan-dependent T cell Recruiter (GlyTR) technology. Critically, GlyTR technology does not utilize antibodies to target carbohydrate cancer antigens. Preliminary data demonstrates that an O-linked carbohydrate targeted bi-specific GlyTR protein induces T cell dependent killing of human cancer cells in vitro without off-target killing of normal cells. To further develop this technology, we propose the following Aims. Aim 1 optimizes an O-linked glycan targeted GlyTR bi-specific protein for activity and drug development. Aim 2 explores the efficacy and safety of the optimized O-linked glycan targeted GlyTR bi-specific protein. If successful, this work will lead to IND enabling studies of an entire new class of immunotherapeutic cancer killing therapeutics that can target multiple solid and hematopoietic cancers with minimal toxicity.

Public Health Relevance Statement:
Project Narrative Immunotherapy using monoclonal antibodies has been recently developed as a promising approach to treat cancer. Alterations in the addition of carbohydrates to proteins is a near universal feature of cancer, but is not targeted by current immunotherapies. Here we examine the possibility of a novel technology that directs immune cells to kill cancer cells based on expression of altered carbohydrates.

Project Terms:
Address; Antibodies; Antigens; B lymphoid malignancy; base; bi-specific T cell engager; Binding; Binding Proteins; Bite; Blood group antigen S; cancer cell; cancer immunotherapy; cancer therapy; cancer type; Carbohydrates; CD3 Antigens; Cell surface; Cell Surface Proteins; Cells; chemotherapy; chimeric antigen receptor; Clinical; Complex; cost; Data; Development; drug development; Engineering; Excision; experimental study; Funding; Galactose; Generations; glycosylation; Hematologic Neoplasms; Hematopoietic Neoplasms; Human; Immune; Immunotherapeutic agent; Immunotherapy; In complete remission; In Vitro; Individual; Lectin; Link; Lymphocyte; macrophage; Malignant - descriptor; Malignant Neoplasms; Mediating; Monoclonal Antibodies; new technology; Normal Cell; Normal tissue morphology; novel; novel strategies; Operative Surgical Procedures; Polysaccharides; prevent; Proteins; Radiation therapy; Safety; Sensitivity and Specificity; Solid; Stem cells; sugar; T-Lymphocyte; Technology; Testing; Therapeutic; Time; Tn antigen; Toxic effect; tumor; Tumor Antigens; Tumor-Associated Carbohydrate Antigens; Work

Phase II

Contract Number: ----------
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
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Phase II Amount
$2,084