Propanc Biopharma, Inc. announced that synthetic recombinant proenzymes trypsinogen and chymotrypsinogen were successfully produced via the Proenzyme Optimization Project 1 (POP1) joint research and drug discovery program with the Universities of Jaen and Granada, Spain. The POP1 project is led by Mr. Aitor Gonzalez, whosedoctoral thesis is focused on the "synthetic development of PRP and its subsequent biological validation," conducted at the laboratory of Professor Macarena Peran, PhD, University of Jaen, Granada, Spain, and in collaboration with Professor Diethard Mattanovich at the Institute of Microbiology and Microbial Biotechnology, University of Natural Resources and Life Sciences, Vienna, Austria. The program is designed to produce a backup clinical compound to the Company's lead product candidate, PRP, which is from bovine origin, targeting metastatic cancer from solid tumors.

According to Emergen Research, the global metastatic cancer market is projected to be worth over $111 Billion by 2027. Key findings from the research conducted by Mr. Gonzalez determined that it is possible to scale up production of both proenzymes trypsinogenic and chymotryps inogen using recombinant technology, resulting in stable, purified proteins that are biologically active and have a similar anti-tumoral effect when compared with PRP. Furthermore, cell viability assays on pancreatic cancer stem cells (Bx PC3-CSCs) suggest that recombinant proenzymes may possess an even stronger anti-tumor effect than pancreatic proenzymes from bovine origin.

The recombinant proenzyme product candidate, designated the label, rec-PRP, is set to enter preclinical pharmacology and safety toxicology studies to compare the safety and efficacy profile to the naturally derived formula in 2023 and 2024 calendar years. A recombinant version of PRP could have additional benefits to the global healthcare system that could further capitalize on a new therapeutic approach to treating cancer that the Company’s lead product candidate offers sufferers. For example, both proenzymes are synthesized by an in vivo (living organism) system to produce crystallized proteins that could be maintained for long periods without suffering degradation in the absence of refrigeration.

This will be useful for a longer shelf life as well as global distribution of the product, particularly in warmer climates and developing regions where refrigeration may not be available. PRP is a mixture of two proenzymes, trypsinogen and chymotrypsinogen from bovine pancreas, administered by intravenous injection. A synergistic ratio of 1:6 inhibits growth of most tumor cells.

Examples include pancreatic, ovarian, kidney, breast, brain, prostate, colorectal, lung, liver, uterine, and skin cancers. Orphan Drug Designation status of PRP has been granted from the US Food and Drug Administration (US FDA) for treatment of pancreatic cancer.