The benefits of anti-cancer agents extend beyond direct tumor killing. One aspect of cell death is the potential to release antigens that initiate adaptive immune responses. Here, a diffusion enhanced formulation, INT230-6, containing potent anti-cancer cytotoxic agents, was administered intratumorally into large (approx. 300mm 3) subcutaneous murine Colon26 tumors. Treatment resulted in regression from baseline in 100% of the tumors and complete response in up to 90%. CD8 + or CD8 + /CD4 + T cell double-depletion at treatment onset prevented complete responses, indicating a critical role of T cells in promoting complete tumor regression. Mice with complete response were protected from subcutaneous and intravenous re-challenge of Colon26 cells in a CD4 + /CD8 + dependent manner. Thus, immunological T cell memory was induced by INT230-6. Colon26 tumors express the endogenous retroviral protein gp70 containing the CD8 + T-cell AH-1 epitope. AH-1-specific CD8 + T cells were detected in peripheral blood of tumor-bearing mice and their frequency increased 14 days after treatment onset. AH-1-specific CD8 + T cells were also significantly enriched in tumors of untreated mice. These cells had an activated phenotype and highly expressed Programmed cell-death protein-1 (PD-1) but did not lead to tumor regression. CD8 + T cell tumor infiltrate also increased 11 days after treatment. INT230-6 synergized with checkpoint blockade, inducing a complete remission of the primary tumors and shrinking of untreated contralateral tumors, which demonstrates not only a local but also systemic immunological effect of the combined therapy. Similar T-cell dependent inhibition of tumor growth was also found in an orthotopic 4T1 breast cancer model.
Heparin is not orally absorbed, presumably because of its size and polyanionic charge and hence is administered parenterally, either by continuous or intermittent infusion or by subcutaneous (SC) injection. However, a formulation that would result in absorption of heparin after oral administration would provide an attractive alternative to parenteral heparin. In that regard several attempts to develop effective non-parenteral heparin formulations have been reported, but they have met with limited success. The present investigation determined the molecular structure, pharmacokinetic (PK), and pharmacodynamic (PD) profiles of oral unfractionated heparin (UFH) containing oral absorption enhancer Sodium N-[8-(2-hydroxybenzoyl) amino] caprylate, salcaprozate sodium (SNAC) and assessed the safety and tolerability of orally dosed heparin solid dosage form versus other routes. Sixteen healthy men were included in this single-dose, three-way crossover, randomized, open-label study. The different arms of the study were as follow: Treatment A- Subjects randomized to Treatment A received two capsules of UFH/SNAC soft gelatin capsules for a total dose of 75,000 U heparin sodium with 150 mL of water; Treatment B: Subjects randomized to Treatment B received 1 mL of heparin sodium USP parenteral 10,000 U/mL via SC injection; Treatment C: Subjects randomized to receive 75,000 U heparin sodium milled powder for oral solution with 150 mL of water; and Treatment D: Subjects randomized to receive 0.5 mL of heparin sodium USP parenteral 5,000 U/mL via IV bolus. Each subject was randomly assigned to receive three of the four treatments so that a total of 12 subjects received each treatment. To characterize the PK of SNAC after oral heparin/SNAC administration and the PD of heparin following the administration of heparin IV, SC, PO alone and PO as heparin/SNAC, 21 blood samples were drawn from all of the subjects receiving treatment A, B, C, and D at the following time points: within 30 minutes pre-dose, at 2, 5, 10, 15, 20, 25, 30, 35, 40, 45 minutes, and at 1,1.5, 2, 2.5, 3, 3.5, 4, 5, 6, and 8 hours post-dose. Blood was drawn into sodium citrate tubes for assessment of anti-factor Xa, anti-factor IIa, aPTT, and SNAC. Disaccharide compositional analysis was performed using capillary high-performance liquid chromatography with electrospray ionization mass spectrometry detection. The PD of heparin was obtained from analysis of plasma anti-factor Xa, anti-factor IIa, aPTT, and total tissue factor pathway inhibitor (TFPI) data. The molecular weight properties and the disaccharide composition of orally administered UFH/SNAC and parenterally administered UFH are identical and consistent with the starting standard UFH administered and achieved anti-factor Xa: anti-factor IIa of 1:1. This is the first true pharmacokinetic study to measure the chemical compositions of heparin administered by different routes.
The recent development of immune-based therapies has improved the outcome for cancer patients; however, adjuvant therapies remain an important line of treatment for several cancer types. To maximize efficacy, checkpoint inhibitors are often combined with cytotoxic agents. While this approach often leads to increased tumor regression, higher off target toxicity often results in certain patients. This report describes a novel formulation comprising a unique amphiphilic molecule, 8-((2-hydroxybenzoyl)amino)octanoate (SHAO), that non-covalently interacts with payloads to increase drug dispersion and diffusion when dosed intratumorally (IT) into solid tumors. SHAO is co-formulated with cisplatin and vinblastine (referred to as INT230-6). IT dosing of the novel formulation achieved greater tumor growth inhibition and improved survival in in vivo tumor models compared to the same drugs without enhancer given intravenously or IT. INT230-6 treatment increased immune infiltrating cells in injected tumors with 10% to 20% of the animals having complete responses and developing systemic immunity to the cancer. INT230-6 was also shown to be synergistic with programmed cell death protein 1 (PD-1) antibodies at improving survival and increasing complete responses. INT230-6 induced significant tumor necrosis potentially releasing antigens to induce the systemic immune-based anti-cancer attack. This research demonstrates a novel, local treatment approach for cancer that minimizes systemic toxicity while stimulating adaptive immunity.
Background: INT230-6 is a novel formulation of cisplatin and vinblastine with an amphiphilic cell penetration enhancer that has been shown to enhance dispersion of the drug throughout tumors and allow diffusion into cells when given intratumorally. INT230-6 is being evaluated in monotherapy and in combination with immune checkpoint inhibitors (ICIs) in subjects with various advanced solid tumors, including advanced breast cancer. Methods: This phase 1/2 study evaluated INT230-6 in superficial and deep tumors with INT230-6 Q2W intratumoral injections for 5 doses alone or in combination with 200mg pembrolizumab IV Q3W for 2 years. Total INT230-6 injected in a subject ranged from 0.89 to 649 mL over 5 INT230-6 dosing sessions in each subject, except one subject who had only 2 dosing sessions. Subjects who had completed treatment in dose escalation cohorts were eligible for retreatment; and one subject was retreated with INT230-6 in multiple arms of the study. Advanced breast cancer subjects with an Eastern Cooperative Oncology Group (ECOG) performance status of 2 or below who have failed one or more approved therapies, or have no alternate approved therapy, were enrolled. Subjects must have adequate organ function and measurable disease by RECIST 1.1 criteria including one target tumor for injection. Tumor response using RECIST 1.1 was evaluated at 12 weeks from the first INT230-6 dose and then every 8 weeks. Tumor biopsies were taken prior to INT230-6 dosing on day 0 and on day 28 post dose. Results: 7 advanced triple negative breast cancer subjects (4 monotherapy, 3 pembrolizumab combination) were evaluable as of June 1, 2021. The median age was 56 (range 46-82) years old, with a median of 8 (2, 17) prior systemic therapies for metastatic disease. The intratumoral INT230-6 dose was up to 164 mL (82 mg of CIS, 16.4mg VIN) to tumors in a single dosing session. With INT230-6, 133-200% more volume is injected into the tumor and pharmacokinetics (PK) analysis shows that 95% of INT230-6 active agents remain in the tumor. Accordingly, assessment of tumor response using RECIST principles may be challenging, and even stable disease may represent a large decrease in viable tumor cells as indicated by biopsy evaluations. The most common (>20%) related treatment related adverse events (AE) were localized tumor related pain (71%), nausea (57%), anemia (29%), fatigue (29%), neck pain (29%), and vomiting (29%). AEs were mostly low grade and only one subject experienced grade 3 anemia (13%). There were no related grade 4 or 5 AEs or serious AEs. Disease control rate (DCR), defined as the percent of patients with a complete response, partial response, or stable disease at the first radiologic assessment, was 57%. Median overall survival was 12 months. Pre- and post- biopsy at 28 days after two INT230-6 doses (n= 3 evaluable, monotherapy, and combination with pembrolizumab) showed a 55% decrease in Ki67 and 69% reduction in viable cancer cells. In addition, multiplex immunofluorescence (n= 3 evaluable, combination with pembrolizumab) showed an influx of activated CD4 and CD8 T cells and in some cases a reduction in FoxP3 T-reg cells.. Conclusion: INT230-6 is a potential first-in-class intratumoral therapy for advanced breast cancer being developed in monotherapy and in combination with ICIs. There is a favorable safety profile in this population, similar to the broader metastatic solid tumor population presented elsewhere. There are early signs of cancer cell death in injected tumors and immune activation in heavily pre-treated patients. A Phase 2 expansion cohort of INT230-6 in combination with ICIs is ongoing. In addition, INT230-6 in being studied in a separate randomized Phase 2 neoadjuvant breast cancer study. Citation Format: Philippe Bedard, Lillian L Siu, Jacob Thomas, Diana Hanna, Anthony J Olszanski, Nilofer Azad, Giles Whalen, Matthew Ingham, Syed Mahmood, Lewis H Bender, Ian B Walters, Anthony El-Khoueiry. Safety and efficacy of INT230-6, a potential first-in-class intratumoral therapy, in monotherapy and in combination with pembrolizumab: Results from the IT-01 study [KEYNOTE-A10] in subjects with locally advanced, unresectable and metastatic breast cancer [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr P5-16-13.
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