Company: HURA
Filing Date: 2025-02-07
Form Type: S-4
Source: 0001193125-25-022803
Chunk: 417

Company: TuHURA Biosciences, Inc./NV
Filing Date: 2025-02-07
Form: S-4
Chunk 417
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 of a highly immunogenic gram positive bacterial protein (Emm55) from a rare variant of Streptococcus pyogenes on the surface of the tumor cell. This is graphically demonstrated above. By mimicking a bacterium, TuHURA’s technology makes a tumor cell look like bacteria. By making a tumor look like a bacterium, the molecular pattern of the bacterial protein is recognized by specific receptors on immune cells called pattern recognition receptors, also referred to as toll-like receptors or TLRs. These receptors are pre-programmed over evolution to recognize specific molecular patterns or motifs on pathogens like bacteria and activate and harness the power of the body’s innate immune response.

IFx is designed to harness the body’s natural innate immune response making the patients entire tumor appear foreign. This causes antigen presenting cells, or APCs, like DCs to phagocytize (which is the process of “eating” and “digesting”) the tumor cell, thinking they are bacteria. DCs present the captured neoantigens on MHCI and MHCII molecules to T cells, resulting in the priming and activation of tumor cell killing or cytotoxic, T cell responses against these cancer-specific neoantigens, which are viewed as foreign. This is referred to as “primary epitope spreading.” Epitopes are the region/part of tumor antigens that are recognized by the immune system, specifically by antibodies, B cells and T cells. In doing so the first step of the cancer-immunity cycle is activated and restored.

Plasmid DNA, or plasmids, are small, circular, double-stranded DNA molecules that are separate from a cell’s chromosomal DNA and can replicate independently. Plasmids are most commonly found in bacteria, but can also be found in archaea and eukaryotic organisms. They can range in length from about 1,000 to hundreds of thousands of DNA base pairs. Plasmids often carry genes that can benefit the survival of an organism, such as antibiotic resistance. When a bacterium divides, all of the plasmids in the call are copied, so each daughter cell receives a copy of each plasmid. Plasmids can also be transmitted horizontally to other bacteria in some cases. Scientists have taken advantage of plasmids to use them as tools to clone, transfer, and manipulate genes.

Other Types of Cancer Immunotherapies

To date, most cancer immunotherapies, such as those described below, have utilized a number of different approaches to initiate