Advances Body of Knowledge Around Metabolic Pathways and Cellular Targets
Advances Body of Knowledge Around Metabolic Pathways and Cellular Targets
NEW YORK, Oct. 27, 2020 /PRNewswire/ -- Phosplatin Therapeutics LLC, a clinical-stage pharmaceutical company focused on oncology therapeutics, presented new data showing that glycolytic tumor cells with mitochondrial dysfunction were more sensitive to cell death induced by PT-112, the company’s lead clinical agent, compared to cells with an intact oxidative phosphorylation pathway. The type of cell death induced by PT-112 was also shown to involve autophagy, which is a known pre-cursor of immunogenic cell death (ICD). Such findings reinforce PT-112’s divergence from the canonical expectations surrounding cell death mechanisms of platinum-containing agents. Data were presented at the 32nd Symposium of the European Organisation for Research and Treatment of Cancer (EORTC), the National Cancer Institute (NCI) and the American Association for Cancer Research (AACR), which took place virtually October 24-25.
“PT-112’s selectivity to glycolysis-dependent cells over those able to conduct aerobic respiration, and its initiation of autophagy, are promising mechanistic findings that tie in well with PT-112’s ability to induce ICD. These findings may offer opportunity for subsequent clinical applications,” said Tyler Ames, PhD, SVP of Research and Development, Phosplatin Therapeutics.
Led by Professor Alberto Anel, PhD of the University of Zaragoza Aragón Health Research Institute of Zaragoza, Spain, the study used the lab’s proprietary cellular models to demonstrate high sensitivity to PT-112 exposure of glycolysis-dependent cancerous cells harboring mitochondrial DNA mutations and high expression of HIF-1a, and a degree of selectivity not observed with cisplatin control. The study authors attributed the variance in response to differences in cellular targets and/or reactive oxygen species (ROS) generation by PT-112. Initial validation of these data in human cancer cells is ongoing. ROS generation is also known from the literature as a pre-cursor to ICD.
“As we continue to learn more about PT-112 and its unique set of cellular effects, we gain greater insight into its pleiotropic mechanism of action, the possible causes of its robust ICD induction, and its breadth of potential clinical application,” said Matthew Price, co-founder and Chief Operating Officer, Phosplatin Therapeutics. “We are grateful for our collaboration with the Anel lab. Our hope is that such collaborative lab research, as well as our ongoing clinical correlative studies, will further illuminate ways in which we can continue successfully to treat cancer patients who have few available treatment options.”
The abstract “PT-112, A First-In-Class Pyrophosphate-Platinum Conjugate, Selectively Targets Highly Glycolytic Tumor Cells” is available along with a narrated poster presentation at the EORTC-NCI-AACR symposium site and on the Phosplatin Therapeutics website.
About PT-112
PT-112 is a novel small molecule conjugate of pyrophosphate that possesses a unique pleiotropic mechanism of action that promotes immunogenic cell death (ICD), through the release of damage associated molecular patterns (DAMPs) that bind to dendritic cells and lead to downstream immune effector cell recruitment in the tumor microenvironment. PT-112 represents the best-in-class small molecule inducer of this immunological form of cancer cell death and is currently under Phase II development. The first in-human study of PT-112 demonstrated an attractive safety profile and evidence of long-lasting responses among heavily pre-treated patients and won “Best Poster” within the Developmental Therapeutics category at the ESMO 2018 Annual Congress. The novelty of PT-112’s pyrophosphate moiety also results in osteotropism, or the propensity of the drug to reach the mineralized bone. This property is of interest in cancer types that originate in or metastasize to the bone. The combination Phase Ib study of PT-112 with PD-L1 immune checkpoint inhibitor avelumab in solid tumors was reported in an oral presentation at the ESMO 2020 Virtual Congress.
About Phosplatin Therapeutics
Phosplatin Therapeutics is a privately held, clinical-stage pharmaceutical company that holds exclusive global license to phosphaplatins, a family of small molecules rationally designed to circumvent the mechanisms of drug resistance and toxicity commonly associated with chemotherapeutic regimens. The company’s lead candidate, PT-112, is a novel chemical entity under clinical development that exhibits a unique combination of properties, including immunogenic cell death and osteotropism. Clinical data generated to date across three Phase I studies have demonstrated single-agent anti-cancer activity and an attractive tolerability profile, and Phase II studies of PT-112 are underway. The company’s research and development work to date has spanned fifteen countries and been funded by private investors and family investment offices in the United States, Europe and Asia, along with a sub-license agreement for the development, commercialization and use of PT-112 in Greater China. The company sponsors the ongoing clinical study of PT-112 in combination with the PD-L1 inhibitor avelumab under a collaboration agreement with Pfizer and Merck KGaA, Darmstadt, Germany (operating as EMD Serono in the US and Canada).
CONTACTS:
Phosplatin Therapeutics
Taylor Young
Senior Director of Strategic Development
Tel: +1 646 380 2441
Email: tyoung@phosplatin.com
Westwicke, an ICR Company
Investors:
Stephanie Carrington
Tel: +1 646 277 1282
Email: Stephanie.Carrington@westwicke.com
Media:
Mark Corbae
Tel: +1 203 682 8288
Email: mark.corbae@westwicke.com
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SOURCE Phosplatin Therapeutics