A phase I study of ridaforolimus (MK-8669) in pediatric patients with advanced solid tumors.

10027 Background: Deregulation of the PI3K/AKT/mTOR signaling pathway occurs in many poor prognosis childhood malignancies and inhibition of this pathway is a promising novel therapeutic strategy. Ridaforolimus (MK-8669) is a highly selective orally bioavailable small molecule inhibitor of mTOR. This multi-centre, phase I dose escalation study of orally administered Ridaforolimus was designed to evaluate the maximum tolerated dose (MTD), safety profile, pharmacokinetic profile (PK), antitumor activity and pharmacodynamic (PD) biomarkers (phosphorylated Akt [pAkt] in platelet-rich plasma). Methods: Patients (pts) from 6 to <18 years (yrs) with advanced solid tumors were enrolled. Dose escalation was by a modified Toxicity Probability Intervals method (mTPI, Ji Y, et al. Clin Trials 2007) targeting a 30% dose limiting toxicity (DLT) ratio. Pts received 28 day cycles of Ridaforolimus (MK-8669), orally, five days out of seven. Dosing started at 22 mg/m2, escalated to 28 and 33 mg/m2, with an expansion cohort treated at the maximum administered dose. Results: 19 pts, age 8-17 (median 13.5 years), were enrolled and 18 treated from 6 international sites. Diagnoses included ependymoma (5), osteosarcoma (3), Ewings sarcoma (3) and other histologies (7). Four pts received dose level (DL) 1; 3 DL 2 and 11 DL 3. Pts received between 1-12+ courses. There was only one DLT (DL 2: grade 3 elevated alanine transaminase [ALT]) and no other grade 3-4 treatment-related toxicities. Preliminary analysis shows the most frequent drug-related adverse events were manageable grade 1-2 stomatitis (70.6%) and fatigue (52%). Dose escalation stopped at DL3 (33 mg/m2, 150% of the adult recommended phase 2 dose [RP2D]). There were no objective responses by RECIST1.1. Two pts remain on study, with continuing stable disease (pineoblastoma [12 courses], diffuse intrinsic pontine glioma [6 courses]). PK and PD analyses will be presented. Conclusions: Ridaforolimus is a safe and well tolerated, orally bioavailable mTOR inhibitor. The RP2D for Ridaforolimus in children is 33 mg/m2. Prolonged disease stabilization was observed in two patients. PK/PD data will provide further data to support the RP2D. Further combination studies are warranted. Clinical trial information: NCT01431547.

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Phase I study of BPM 31510 in advanced solid tumors: Updated analysis of a novel treatment with promising activity.

Journal of Clinical Oncology ◽

10.1200/jco.2012.30.15_suppl.3015 ◽

2012 ◽

Vol 30 (15_suppl) ◽

pp. 3015-3015

Author(s):

Andrew Eugene Hendifar ◽

Sant P. Chawla ◽

Doris Quon ◽

Victoria S Chua ◽

Lita Fernandez ◽

...

Keyword(s):

Partial Response ◽

Phase I ◽

Solid Tumors ◽

Dose Escalation ◽

Phase I Study ◽

Maximum Tolerated Dose ◽

Advanced Solid Tumors ◽

Dose Escalation Study ◽

Minor Response ◽

Grade 3

3015 Background: BPM 31510 is a novel small molecule that targets the metabolic machinery of the cancer microenvironment to reverse the aerobic glycolytic phenotype of cancer cells. Effector downstream signaling results in re-capitulation of BCL-2 mediated apoptosis and disruption in tumor vasculature by modulation of VEGF. (NR Narain et al., Proceedings of AACR Meeting Abstracts 2011). Methods: A standard 3+3 phase I, dose-escalation study design was used in patients with advanced solid tumors refractory to standard treatment. Primary objectives were establishment of the maximum tolerated dose (MTD) and safety/pharmacokinetic (PK) correlates. Secondary objectives included exploratory pharmacodynamics (PD) and preliminary efficacy (RECIST-1.1) of BPM 31510 in sequential cohorts of 3 to 6 pts. Results: At time of submission, 34 patients with advanced cancer who had failed multiple chemotherapeutic regimens had been enrolled in 7 dose cohorts (ranging from 5.6 mg/kg to 78.2 mg/kg). Patients received a median of 2 cycles (1-7). 2 patients have had grade 3 elevation in PT/INR, otherwise there have been no grade 3/4 treatment related toxicities to date. The pharmacokinetics of BPM 31510 are linear and there were no sex differences in the parameters normalized by dose and body surface area. Tmax and Cmax are associated with the end of the infusion. The values for t1/2 ranged from 2.18 to 13.3 hr, with little or no dependence of t1/2 on dose. Objective tumor responses have been noted at the dose of 58.6mg/kg with 1 partial response (myxoid liposarcoma) and 1 minor response (pleomorphic sarcoma). Six patients (19%) have had disease stabilization (> 4 months). Conclusions: Interim data from this phase I study indicate that BPM 31510 is well tolerated with no dose limiting toxicities to date. A partial response and minor response were observed and correlates with dose escalation. Taken together, there is strong rationale for further clinical development of this compound as an anti-cancer agent.

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First-in-man phase I clinical trial evaluating TTI-101, an orally bioavailable, small molecule inhibitor of STAT3, in patients with advanced solid tumors.

Journal of Clinical Oncology ◽

10.1200/jco.2021.39.15_suppl.tps3158 ◽

2021 ◽

Vol 39 (15_suppl) ◽

pp. TPS3158-TPS3158

Author(s):

Apostolia Maria Tsimberidou ◽

Sofia de Achaval ◽

Imran Alibhai ◽

Ahmed Omar Kaseb

Keyword(s):

Clinical Trial ◽

Phase I ◽

Solid Tumors ◽

Small Molecule ◽

Dose Escalation ◽

Advanced Solid Tumors ◽

Dose Escalation Study ◽

Alcoholic Fatty Liver ◽

Wide Range ◽

Orally Bioavailable

TPS3158 Background: Signal transducer and activator of transcription 3 (STAT3) is a transcription factor that is a key signaling node and a master regulator of the key hallmarks of cancer, including tumor angiogenesis, resistance to apoptosis, metastasis, and immune evasion. STAT3 activation is observed in ̃70% of all cancers and up to 95% of hepatocellular carcinomas (HCC). Thus, inhibition of STAT3 signaling is expected to have a therapeutic effect against a wide range of cancers. TTI-101 is a first-in-class, orally bioavailable, selective small molecule that binds STAT3 and prevents phosphorylation, homodimerization, nuclear translocation, and ultimately, STAT3-mediated transcriptional activity. TTI-101 has demonstrated anti-tumor activity across a broad range of preclinical cancer models, including a Hep Pten- (hepatocyte-specific deletion of Pten) murine model of liver cancer, which recapitulates the pathogenesis of HCC in non-alcoholic fatty liver disease (NAFLD) with chronic inflammation and liver fibrosis leading to cancer at 11 months. TTI-101 treatment starting at 11 months arrested tumor growth as well as reversed liver injury and fibrosis (1). Given these findings, a clinical trial is being conducted examining the effect of this novel, targeted therapeutic agent in patients with advanced solid malignancies. Methods: This single-site Phase I trial (NCT03195699) is evaluating TTI-101 as monotherapy in patients with advanced solid tumors who are refractory to prior therapies. The primary objectives of this dose-escalation study include establishing tolerability and safety at each dose level, pharmacokinetics (PK), and establishing the recommended phase 2 dose (RP2D). The secondary and exploratory objectives include assessing clinical outcomes of patients and pharmacodynamics (PD) of TTI-101 via timed, paired tumor biopsies. The initial dose-escalation study is stratified by disease type (HCC and non-HCC) with independent dose-escalation schemas and will be followed by dose expansion cohorts where safety, PK and PD will be evaluated. TTI-101 is administered orally, twice daily for a 28-day cycle. Key eligibility criteria include: 18 years of age or older, having metastatic or unresectable solid tumor refractory to standard therapies, and measurable disease as defined by Response Evaluation Criteria in Solid Tumors (RECIST) version 1.1, an Eastern Cooperative Oncology Group (ECOG) score of 0-2, and normal organ function. Additional criteria are specified for patients with HCC including Child-Pugh class A. HCC cohorts 1-4 and non-HCC cohorts 1-3 have been completed without dose limiting toxicities (DLTs). Enrollment to the HCC dose expansion began in February 2021. 1. Jung KH, et al. Multifunctional Effects of a Small-Molecule STAT3 Inhibitor on NASH and Hepatocellular Carcinoma in Mice. Clin Cancer Res. 2017;23(18):5537-46. Clinical trial information: NCT03195699.

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