Intratumoral aluminum hydroxide–anchored IL-12 drives potent antitumor activity by remodeling the tumor microenvironment
Sailaja Battula, Gregory Papastoitsis, Howard L. Kaufman, K. Dane Wittrup, Michael M. Schmidt
Sailaja Battula, Gregory Papastoitsis, Howard L. Kaufman, K. Dane Wittrup, Michael M. Schmidt
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Research Article Immunology Oncology

Intratumoral aluminum hydroxide–anchored IL-12 drives potent antitumor activity by remodeling the tumor microenvironment

Abstract

IL-12 is a potent cytokine that can promote innate and adaptive anticancer immunity, but its clinical development has been limited by toxicity when delivered systemically. Intratumoral (i.t.) administration can expand the therapeutic window of IL-12 and other cytokines but is in turn limited by rapid drug clearance from the tumor, which reduces efficacy, necessitates frequent administration, and increases systemic accumulation. To address these limitations, we developed an anchored IL-12 designated ANK-101, composed of an engineered IL-12 variant that forms a stable complex with the FDA-approved vaccine adjuvant aluminum hydroxide (Alhydrogel). Following i.t. administration of murine ANK-101 (mANK-101) in early intervention syngeneic mouse tumors, the complex formed a depot that was locally retained for weeks as measured by IVIS or SPECT/CT imaging, while unanchored protein injected i.t. was cleared within hours. One or 2 i.t. injections of mANK-101 induced single-agent antitumor activity across a diverse range of syngeneic tumors, including models resistant to checkpoint blockade at doses where unanchored IL-12 had no efficacy. Local treatment with mANK-101 further induced regressions of noninjected lesions, especially when combined with systemic checkpoint blockade. Antitumor activity was associated with remodeling of the tumor microenvironment, including prolonged IFN-γ and chemokine expression, recruitment and activation of T and NK cells, M1 myeloid cell skewing, and increased antigen processing and presentation. Subcutaneous administration of ANK-101 in cynomolgus macaques was well tolerated. Together, these data demonstrate that ANK-101 has an enhanced efficacy and safety profile and warrants future clinical development.

Authors

Sailaja Battula, Gregory Papastoitsis, Howard L. Kaufman, K. Dane Wittrup, Michael M. Schmidt

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Figure 3

Antitumor activity of mANK-101 in vivo.

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Antitumor activity of mANK-101 in vivo. (A) Tumor growth from mice (n = ...
(A) Tumor growth from mice (n = 10) bearing CT26 tumors (mean TV = 79 mm3) treated with a single i.t. injection of vehicle, 5 μg mIL-12 (left), or 5 μg mANK-101 (center) and survival (right). The dashed vertical line denotes the treatment day. (B) Tumor growth from mice (n = 10) bearing CT26 tumors (mean TV = 285 mm3) treated with 2 i.t. injections of vehicle, 5 (left), or 20 μg mANK-101 (center) 10 days apart, and survival (right). (C) Tumor growth from mice (n = 8) bearing MC38 tumors treated with a single i.t. injection of vehicle, 5 μg mANK-101 (left), and survival (right). (D) Tumor growth from mice (n = 10) bearing A20 tumors treated with 2 i.t. injections of 5 μg mANK-101, vehicle, or 50 μg Alhydrogel spaced 7 days apart (left) and survival (right). (E) Tumor growth from mice (n = 10) bearing B16F10 tumors treated with 2 i.t. injections of 7.5 μg mANK-101 on days 6 and 13 or anti–PD-1 antibody on days 6, 9, 12, and 15 or vehicle (left) and survival (right). (F) Tumor growth (left) and survival (right) from mice (n = 10) bearing dual-flank B16F10 tumors treated with 2 i.t. injections of vehicle or mANK-101 10 days apart in the right flank tumor only. (G) Tumor growth (left) and lung metastases count (right) from mice (n = 10) bearing orthotopic 4T-1 tumors (mean TV = 72 mm3) treated with 1 i.t. injection of vehicle or 5 μg mANK-101. Animals were sacrificed and lung metastases counted on day 28. Survival in all the efficacy studies utilized the Kaplan-Meier method and was compared by log-rank Mantel-Cox test. 4T-1 mean tumor volume and lung metastases count on day 28 were compared by 1-way ANOVA with Dunnett’s post hoc test. **P < 0.005; ***P < 0.0005; ****P < 0.0001.