Showing papers by "Rod Balhorn published in 2017"

Abstract 1171: Therapeutic applications of the selective high affinity ligand SH7139 may extend beyond NHL to many other types of solid tumors

Abstract: SH7139, the first of a new class of cancer therapeutics developed for treating non-Hodgkin’s lymphoma, is unusual in that both targeting and pro-drug functionalities have been incorporated into the same small molecule. Functioning similar to an antibody-drug conjugate, SH7139 targets a unique structural epitope within the antigen-binding pocket of HLA-DR10. HLA-DRs containing this epitope within the β-subunit are reported to be over-expressed in approximately 85% of B-cell lymphomas. Upon binding to HLA-DR molecules located on the tumor cell’s surface, SH7139 is transported into the cytoplasm where it is concentrated and subsequently metabolized. A series of metabolic products derived from the SHAL’s recognition elements (three small molecules that are linked together to create SH7139 and to provide targeting selectivity) are generated as the drug is broken down, each of which inhibits one or more activities required for tumor cell survival. Preclinical studies with SH739 have demonstrated remarkable efficacy in treating B-cell lymphoma xenografts in mice, providing permanent cures for up to two-thirds of the animals at a human equivalent dose as low as 0.41 μg/kg. Biopsy tissue binding studies conducted with SH7129, a biotinylated form of SH7139, and streptavidin-horse radish peroxidase detection have shown the drug binds to a significant fraction of tumors obtained from patients diagnosed with multiple myeloma and each of the B-cell lymphoma subtypes tested to date (DLBC, Burkitt’s, Mantle Cell, Follicular, MALT, and CLL). SH7129 was also observed to bind to tumor biopsies obtained from of a number of patients diagnosed with peripheral T-cell and nodular sclerosis Hodgkin’s lymphomas, a result consistent with observations reported by others that HLA-DRs are expressed in a subset of these lymphomas. HLA-DR expression has also been reported to occur in or be linked to a number of other types of cancer, including melanoma, cervical, ovarian, pancreatic and lung cancers. SH7129 staining of tumor microarrays have shown biopsy cores from a subset of patients diagnosed with each of these cancers also bind SH7139. While in vivo efficacy has only been tested in Burkitt’s (Raji), Mantle cell (Granta-519), and T-cell (Jurkat, a cell line control lacking HLA-DR and showing no efficacy) lymphoma xenografts, these tissue binding results suggest that in addition to the majority of the NHL subtypes, nodular sclerosis Hodgkin’s lymphoma, multiple myelomas, as well as a subset of melanomas, ovarian, cervical, pancreatic, and lung cancers may also respond to SH7139 therapy. This research was supported by the National Cancer Institute Phase II SBIR Award R44CA159843. Citation Format: Monique Cosman Balhorn, Rod Balhorn. Therapeutic applications of the selective high affinity ligand SH7139 may extend beyond NHL to many other types of solid tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 1171. doi:10.1158/1538-7445.AM2017-1171

Abstract 4079: Pre-clinical toxicology and safety of SH7139: The first of a new class of targeted therapeutics for non-Hodgkin's lymphoma and other cancers

Abstract: Selective High Affinity Ligands (SHALs) are small molecules that can be designed to bind selectively and with high affinity to any protein target by linking together several ligands that recognize and bind to different sites on the protein’s surface. SH7139, our first SHAL therapeutic for treating advanced non-Hodgkin’s lymphoma, has shown remarkable efficacy in B-cell lymphoma xenograft models by providing permanent cures for up to two-thirds of the animals at a human equivalent dose as low as 0.4 μg/kg. Functioning similar to an antibody-drug conjugate and a pro-drug, SH7139 targets and binds to a unique structural epitope within the antigen-binding pocket of HLA-DR10. HLA-DRs containing this epitope are expressed in approximately 85% of B-cell lymphomas. Upon binding to its HLA-DR target, SH7139 is carried into the cytoplasm where it is concentrated and subsequently metabolized, releasing toxic metabolites (derived from each of the linked ligands) that inhibit a series of cellular activities required for tumor cell function. In preparation for an IND application submission and advancing SH7139 into clinical trials, acute dose range finding (i.v. bolus) and multiple dose (i.v. bolus on days 1, 8, and 15) toxicology and safety studies have been conducted with SH7139 in rats and beagle dogs. In the rat studies, doses up to 30 mg/kg (NOAEL = 30 mg/kg, 11,854 fold higher than the efficacy dose), were well tolerated with no findings associated with the drug. Beagle dogs were found to be the most sensitive species (NOAEL = 0.3mg/kg, 395 fold higher than the efficacy dose), with doses at 1 and 10mg/kg producing a reversible allergic-type reaction. A maximum tolerated dose (MTD) was reached in rats (100 mg/kg). No attempt was made to identify the MDT in dogs. In vitro assays conducted to evaluate potential cardiac safety showed SH7139 had no effect on potassium (hERG) and calcium (hCaV1.2) ion channel function up to the highest concentration tested (25 μM). A detectable effect above background was only observed with the sodium channel hNaV1.5 at 25 μM, a plasma concentration that would only be achieved in patients administered a dose ~2,000 fold higher than the efficacy dose. SH7139 was found to be negative in inducing gene mutation in five tester strains of Salmonella and E. coli (AMES assay). In a CHO-K1 micronucleus assay, no genotoxicity was observed in the presence of S9 over the entire concentration range tested. In the absence of S9, a positive response (3.3 fold) just above the triggering threshold (3 fold) of the assay was observed at the highest SH7139 concentration (500 μM). Based on these results and others derived from mouse xenograft efficacy studies, a maximum recommended Phase I trial starting dose has been tentatively set at 0.5 μg/kg with a safety factor of 324. This research was supported by the National Cancer Institute Phase II SBIR Award R44CA159843. Citation Format: Rod Balhorn, Monique Cosman Balhorn. Pre-clinical toxicology and safety of SH7139: The first of a new class of targeted therapeutics for non-Hodgkin9s lymphoma and other cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4079. doi:10.1158/1538-7445.AM2017-4079