Company: HURA
Filing Date: 2025-03-31
Form Type: 10-K
Source: 0000950170-25-047921
Chunk: 63

Company: TuHURA Biosciences, Inc./NV
Filing Date: 2025-03-31
Form: 10-K
Item: Item 1
Chunk 63
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 is digested and the full complement of foreign tumor neoantigens are packaged and presented to newly produced T and B cells producing activated tumor specific T cells, the primary target allowing checkpoint inhibitors to work where they previously failed.

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We believe that our IFx technology avoids problems associated with trying to predict which tumor- specific antigens are important and avoids the challenges associated with selection, analysis, production and delivery that accompanies individual neoantigen therapy approaches. Unlike oncolytic viral therapies which lyse the tumor cell disseminating tumor neoantigens throughout the tissue surrounding the tumor relying on antigen presenting cells in the vicinity to recognize, digest and present neoantigens to naïve T and B cells, IFx technology presents the full complement of tumor neoantigens from the intact tumor cell providing more optimal neoantigen presentation and inter-antigenic epitope spreading more effectively than oncolytic viral therapy or individual neoantigen therapy approaches.

Importantly, IFx is not an oncolytic viral technology. Oncolytic viral technologies which work by “exploding” the tumor cell resulting in the random dissemination of tumor neoantigens into the tumor microenvironment where immune cells can potentially see and digest them. In contrast, IFx presents the full complement of tumor neoantigens packaged inside the intact tumor cell providing much more optimal neoantigen presentation and more efficient inter-antigenic epitope spreading.

Bi-specific/Bi-functional APCs and ADCs: Inhibiting MDSC immune suppressing functions

MDSCs

MDSCs are among the most common cells present in the tumor microenvironment, which is the tissue surrounding the tumor, where they are a major regulator of suppression of the immune system. MDSCs are normally produced during pregnancy where they migrate to and populate the placenta, creating an immunologic sanctuary for the fetus. Since half of the genetic make-up of the fetus comes from the father, this is necessary to prevent the mother’s immune system from attacking the fetus. They are also produced in settings of chronic inflammation or autoimmune disease as a mechanism to decrease inflammation or autoimmunity. Under normal conditions, MDSCs represent less than 2% of circulating peripheral blood mononuclear cells (PBMCs) and lack potent immune suppressing characteristics

In cancer, MDSCs are hijacked by tumors to create an immunosuppressive environment in the tissues in which the tumor lives. MDSCs are the primary driver of the immunosuppressive tumor microenvironment. Multiple effector molecules and