Company: HURA
Filing Date: 2025-09-18
Form Type: S-1/A
Source: 0001193125-25-207395
Chunk: 84

Company: TuHURA Biosciences, Inc./NV
Filing Date: 2025-09-18
Form: S-1/A
Chunk 84
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 is believed to be a strong driver of immunosuppression in the tumor microenvironment and is believed to be a primary mechanism by which leukemic blasts escape immune recognition contributing to low relapse rates and high rates of recurrence in acute myeloid leukemia, or AML. Following our acquisition of Kineta, we are currently planning on investigating TBS-2025 in a randomized Phase 2 trial in combination with a menin inhibitor vs menin inhibitor alone in mutated NPM1 (mutNPM1) AML.

In addition to our IFx and TBS-2025 technologies, we are leveraging our Delta Opioid Receptor technology to develop tumor microenvironment modulators in the form of first-in-class bi-specific antibody-peptide conjugates (“APCs”) and antibody-drug conjugates (“ADCs”) targeting Myeloid Derived Suppressor Cells (“MDSCs”). Our APCs and ADCs are being developed to inhibit the immune-suppressing effects of MDSCs on the tumor microenvironment to prevent T cell exhaustion and acquired resistance to checkpoint inhibitors and cellular therapies.

IFx Innate Immune Agonist Development Program

We have developed Immune Fx, or IFx, as an innate immune agonist technology designed to “trick” the body’s immune system to attack tumor cells by making tumor cells look like bacteria and to thereby harness the natural power of innate immunity by leveraging natural mechanisms conserved throughout evolution to recognize threats from foreign pathogens like bacteria or viruses. Our innate immune agonist product candidates are delivered either via intratumoral injection (in the case of the Company’s pDNA innate immune agonist) or tumor targeted via intravenous or autologous whole-cell administration (in the case of our mRNA innate immune agonist).

Our IFx-2.0 innate immune agonist, our company’s lead product candidate, is comparatively simple to administer and involves only the injection into a patient’s tumor, or lymph node, of a relatively small amount of pDNA that is designed to encode for an immunogenic gram positive bacterial protein that gets expressed on the surface of the patient’s tumor so that the surface of the tumor looks like a bacterium.

Bacteria, like all pathogens, have molecular patterns or motifs that are conserved through evolution and that are recognized by specific pattern-recognition receptors on immune cells of our innate immune system. This is an individual’s primary line of defense against pathogens that the individual is born with, and the innate immune system has no choice but to recognize the tumor as it would