Purpose: We describe the first-in-human dose-escalation trial for ALRN-6924, a stabilized, cell-permeating peptide that disrupts p53 inhibition by mouse double minute 2 (MDM2) and MDMX to induce cell-cycle arrest or apoptosis in TP53-wild-type (WT) tumors. Patients and Methods: Two schedules were evaluated for safety, pharmacokinetics, pharmacodynamics, and antitumor effects in patients with solid tumors or lymphomas. In arm A, patients received ALRN-6924 by intravenous infusion once-weekly for 3 weeks every 28 days; arm B was twice-weekly for 2 weeks every 21 days. Results: Seventy-one patients were enrolled: 41 in arm A (0.16–4.4 mg/kg) and 30 in arm B (0.32–2.7 mg/kg). ALRN-6924 showed dose-dependent pharmacokinetics and increased serum levels of MIC-1, a biomarker of p53 activation. The most frequent treatment-related adverse events were gastrointestinal side effects, fatigue, anemia, and headache. In arm A, at 4.4 mg/kg, dose-limiting toxicities (DLT) were grade 3 (G3) hypotension, G3 alkaline phosphatase elevation, G3 anemia, and G4 neutropenia in one patient each. At the MTD in arm A of 3.1 mg/kg, G3 fatigue was observed in one patient. No DLTs were observed in arm B. No G3/G4 thrombocytopenia was observed in any patient. Seven patients had infusion-related reactions; 3 discontinued treatment. In 41 efficacy-evaluable patients with TP53-WT disease across both schedules the disease control rate was 59%. Two patients had confirmed complete responses, 2 had confirmed partial responses, and 20 had stable disease. Six patients were treated for >1 year. The recommended phase 2 dose was schedule A, 3.1 mg/kg. Conclusions: ALRN-6924 was well tolerated and demonstrated antitumor activity.
Purpose: Transcription factor retinoic acid receptor-related orphan receptor g (RORg) regulates type 17 effector T-cell differentiation and function and is key to immune cell regulation. Synthetic RORg agonists modulate immune cell gene expression to increase effector T-cell activity and decrease immune suppression. A phase 1 study evaluated the safety and tolerability of LYC-55716 (cintirorgon), a first-in-class, oral, small-molecule RORg agonist in adults with relapsed/ refractory metastatic cancer.Patients and Methods: Patients received 28-day treatment cycles of oral LYC-55716; dose and dosing regimen were determined according to pharmacokinetic profile and safety. Primary endpoints were safety and tolerability. Secondary endpoints included pharmacokinetics and objective tumor response rate.Results: No dose-limiting toxicities occurred among the 32 enrolled patients who received LYC-55716 150 mg BID to 450 mg BID. Treatment-related adverse events (AE) were primarily grade 1-2 and included diarrhea (n ¼ 11), fatigue (n ¼ 7), anemia (n ¼ 4), decreased appetite (n ¼ 4), and nausea (n ¼ 4). Grade 3 AEs were anemia (n ¼ 2), elevated gammaglutamyl transferase (n ¼ 1), and hypophosphatemia (n ¼ 1). Pharmacokinetic concentrations achieved levels expected for target gene regulation. Pharmacodynamic results indicated RORg pathway engagement. Two patients (NSCLC and sarcomatoid breast cancer) had confirmed partial responses; 11 had disease stabilization for 2 to 12 months (6 received >4 months of treatment).Conclusions: These data support the safety and tolerability of LYC-55716 and selection of 450 mg BID dose for a phase 2a study assessing LYC-55716 clinical activity, safety, and biomarkers in patients with NSCLC, head and neck, gastroesophageal, renal cell, urothelial, and ovarian cancers.
1018 Background: H3B-6545, a selective, small molecule covalent antagonist of ERα demonstrated preclinical and preliminary clinical activity against ER+ breast cancer (Hamilton EP, SABCS, 2020). This study evaluated the activity and tolerability of H3B-6545 in patients (pts) with metastatic ER+, HER2-, breast cancer refractory to endocrine therapy. Methods: Patients received H3B-6545 once daily at the recommended phase II dose of 450 mg. The primary objective of the phase II is to estimate the objective response rate (ORR), progression-free survival (PFS), clinical benefit rate (CBR) and secondary objectives include safety. Results: 83 pts were treated with 450 mg in the phase II part of the trial. Additionally, 11 pts were treated with 450 mg in the phase I part of the trial and are included in this analysis. Median age was 62 years (range: 38 to 87 years), 81% had liver and/or lung metastases, and the median number of prior therapies for metastatic disease was 3 (range: 1 to 8). Prior CDK4/6 inhibitors, aromatase inhibitors, fulvestrant, and chemotherapy were received by 85%, 80%, 72%, and 50% of the pts, respectively. 58 pts (62%) had detectable ESR1 mutations in liquid biopsies, including 10 (11%) and 19 pts (20%) who had clonal Y537S and clonal D538G mutation, respectively. As of January 29, 2021, grade (gr) 2 or higher adverse events (AE) reported in ≥10% were anemia (19%), fatigue (16%), nausea (17%), and diarrhea (12%). Laboratory gr 2 or higher abnormalities reported in ≥10% pts were creatinine clearance decrease (38%), hemoglobin decrease (37%), bilirubin increase (12%), ALT increase (14%), AST increase (13%), and creatinine increase (11%). AE of gr 1 sinus bradycardia (asymptomatic) was reported in 34% and gr 2 (symptomatic, no intervention needed) was reported in 5%. Gr 2 and 3 QTcF prolongation were reported in 2 and 3 pts, respectively. There were no treatment-related deaths. Efficacy estimates are presented in the table below. Responses were observed in heavily pretreated pts, pts with visceral metastases and in pts who received prior fulvestrant, CDK4/6 inhibitor, and/or chemotherapy in the metastatic setting. Conclusions: H3B-6545 has a manageable safety profile and demonstrated single-agent anti-tumor activity in heavily pretreated ER+, HER2- mBC patients. Clinical activity was observed in pts with ESR1 mutations. Clinical trial information: NCT03250676 .[Table: see text]
Purpose: Prexasertib, a checkpoint kinase 1 inhibitor (CHK1), exhibited modest monotherapy antitumor activity in previous studies. Preclinical data were generated to support the clinical combination of prexasertib + samotolisib, a PI3K/mTOR inhibitor. Patients and Methods: Prexasertib + samotolisib was first evaluated in triple-negative breast cancer (TNBC) cells, MDA-MB-231 orthotopic xenograft tumors, and TNBC patient–derived xenograft (PDX) mouse models. In the phase Ib trial, following dose escalation, the initial expansion arm (E1, solid tumors) explored prexasertib 105 mg/m2 intravenously every 14 days + samotolisib 200 mg orally twice daily. Subsequent expansion arms evaluated samotolisib 150 mg twice daily in patients carrying PIK3CA mutations (E2, solid tumors) or with TNBC (E3). Safety and antitumor activity were assessed. Results: Prexasertib + samotolisib inhibited cell proliferation in TNBC lines and primary tumor growth in the MDA-MB-231 model. Prexasertib + samotolisib exhibited synergistic or additive effects in 30 of 38 PDX single-mouse (“n = 1”) models, and provided rationale for clinical evaluation. In the phase Ib study, 53 patients were enrolled (escalation, n = 13; E1, n = 9; E2, n = 15; and E3, n = 16). No dose-limiting toxicities (DLT) were observed during escalation; however, DLT-equivalent toxicities were observed in E1, leading to samotolisib dose reduction (150 mg twice daily) in E2/E3. Common treatment-related adverse events were leukopenia/neutropenia (94.3%), thrombocytopenia (62.3%), and nausea (52.8%). During escalation, 2 patients achieved partial response for an overall response rate (ORR) of 15.4%, and ORRs were 13.3% for E2 (PIK3CA) and 25% for E3 (TNBC). Conclusions: Prexasertib + samotolisib showed antitumor activity in preclinical models and preliminary efficacy in heavily pretreated patients. The clinical combination was associated with toxicity, suggesting supportive measures may be required. However, these data may inform future trials using other CHK1 and PI3K pathway inhibitors.
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