Ecaterina Elena Dumbrava scite author profile

The introduction of HER2-targeted therapy for breast and gastric patients with ERBB2 (HER2) amplification/overexpression has led to dramatic improvements in oncologic outcomes. In the past 20 years, five HER2-targeted therapies have been FDA approved, with four approved in the past 8 years. HER2-targeted therapy similarly was found to improve outcomes in HER2-positive gastric cancer. Over the past decade, with the introduction of next-generation sequencing into clinical practice, our understanding of HER2 biology has dramatically improved. We have recognized that HER2 amplification is not limited to breast and gastric cancer but is also found in a variety of tumor types such as colon cancer, bladder cancer, and biliary cancer. Furthermore, HER2-targeted therapy has signal of activity in several tumor types. In addition to HER2 amplification and overexpression, there is also increased recognition of activating HER2 mutations and their potential therapeutic relevance. Furthermore, there is a rapidly growing number of new therapeutics targeting HER2 including smallmolecule inhibitors, antibody-drug conjugates, and bispecific antibodies. Taken together, an increasing number of patients are likely to benefit from approved and emerging HER2targeted therapies.

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Phase 2 study of pembrolizumab in patients with advanced rare cancers

Naing

Meric‐Bernstam

Stephen

et al. 2020

J Immunother Cancer

107

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BackgroundPatients with advanced rare cancers have poor prognosis and few treatment options. As immunotherapy is effective across multiple cancer types, we aimed to assess pembrolizumab (programmed cell death 1 (PD-1) inhibitor) in patients with advanced rare cancers.MethodsIn this open-label, phase 2 trial, patients with advanced rare cancers whose tumors had progressed on standard therapies, if available, within the previous 6 months were enrolled in nine tumor-specific cohorts and a 10th cohort for other rare histologies. Pembrolizumab 200 mg was administered intravenously every 21 days. The primary endpoint was non-progression rate (NPR) at 27 weeks; secondary endpoints were safety and tolerability, objective response rate (ORR), and clinical benefit rate (CBR).ResultsA total of 127 patients treated between August 15, 2016 and July 27, 2018 were included in this analysis. At the time of data cut-off, the NPR at 27 weeks was 28% (95% CI, 19% to 37%). A confirmed objective response (OR) was seen in 15 of 110 (14%) evaluable patients (complete response in one and partial response in 14). CBR, defined as the percentage of patients with an OR or stable disease ≥4 months, was 38% (n=42). Treatment was ongoing in 11 of 15 patients with OR at last follow-up. In the cohort with squamous cell carcinoma (SCC) of the skin, the NPR at 27 weeks was 36%, ORR 31%, and CBR 38%. In patients with adrenocortical carcinoma (ACC), NPR at 27 weeks was 31%, ORR 15%, and CBR 54%. In the patients with carcinoma of unknown primary (CUP), NPR at 27 weeks was 33%, ORR 23%, and CBR 54%. In the paraganglioma–pheochromocytoma cohort, NPR at 27 weeks was 43%, ORR 0%, and CBR 75%. Treatment-related adverse events (TRAEs) occurred in 66 of 127 (52%) patients, and 12 (9%) had grade ≥3 TRAEs. The most common TRAEs were fatigue (n=25) and rash (n=17). There were six deaths, all of which were unrelated to the study drug.ConclusionsThe favorable toxicity profile and antitumor activity seen in patients with SCC of skin, ACC, CUP, and paraganglioma–pheochromocytoma supports further evaluation of pembrolizumab in this patient population.Trial registration numberNCT02721732

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Complex I inhibitor of oxidative phosphorylation in advanced solid tumors and acute myeloid leukemia: phase I trials

Yap

Daver

Mahendra

et al. 2023

Nat Med

154

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While targeting oxidative phosphorylation (OXPHOS) is a rational anticancer strategy, patient bene t with OXPHOS inhibitors in the clinic has yet to be achieved. Based on promising preclinical data, we advanced IACS-010759, a highly potent and selective small-molecule inhibitor of mitochondrial complex I, into two phase I trials in patients with acute myeloid leukemia (NCT02882321) or advanced solid tumors (NCT03291938). Clinical ndings revealed that IACS-010759 had a narrow therapeutic index with emergent dose-limiting toxicities that included elevated blood lactate and neurotoxicity, obstructing efforts to maintain target plasma exposure. Consequently, only modest on-target inhibition and limited antitumor activity were observed. Follow-up reverse translational studies uncovered that IACS-010759 reduced oxygen consumption rates in neurons and damaged myelin. Further, IACS-010759-treated mice displayed behaviors indictive of neuropathy, which were minimized with the co-administration of a histone deacetylase 6 inhibitor. Our ndings urge caution in the continued development of complex I inhibitors as antitumor agents.

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Phase I trial of IACS-010759 (IACS), a potent, selective inhibitor of complex I of the mitochondrial electron transport chain, in patients (pts) with advanced solid tumors.

Yap

Ahnert

Piha‐Paul

et al. 2019

JCO

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3014 Background: A subset of tumors possess genetic or microenvironmental alterations that render cells dependent on mitochondria oxidative phosphorylation (OXPHOS) for survival. IACS, a potent oral selective inhibitor of mitochondrial complex I, showed robust responses in multiple preclinical tumor models, providing strong rationale for clinical testing. Methods: Pts with advanced cancers received IACS in increasing dose levels (DL) using 3+3 dose escalation. 7-day QD induction of IACS was followed by maintenance weekly (QW) or twice weekly (BIW) dosing. Phamacokinetics (PK), lactate and pH were assessed serially. Paired tumor biopsies were assessed for pharmacodynamic and predictive biomarkers. Results: 18 pts were treated; M/F 16/2; ECOG PS 0/1: 3/15. Mean age 49 (23-69) yrs. Tumors comprised advanced colorectal (n = 4), castration resistant prostate cancer (CRPC) (n = 3), pancreatic (n = 2), other cancers (n = 9). DL1: 2mg QD 7 days induction/0.5mg QW maintenance (n = 3); DL2: 2.5mg QD 7 days/1mg QW (n = 3); DL3: 3mg QD 7 days/3mg QW (n = 3); DL4: 2.5mg QD 7 days/2.5mg BIW (n = 4); DL5: 2mg QD 7 days/2mg BIW (n = 5). IACS was well tolerated with 12 (67%) pts reporting G1-2 IACS related toxicities, such as raised lactate (n = 10), nausea (n = 8), fatigue (n = 7), vomiting (n = 5), myalgia (n = 4) and peripheral neuropathy (n = 4). 1 pt in DL3 and 2 pts in DL4 had ≥G3 IACS related toxicities, such as nausea (n = 2), vomiting (n = 1), raised lactate (n = 1), dehydration (n = 1), visual changes (n = 1), and peripheral neuropathy (n = 1). Raised lactate was not associated with acidosis. DL5 is now being expanded to assess the maximum tolerated dose (MTD). PK showed good oral bioavailability, with long T1/2 and low intrapatient variability. Cmax = 14nM on Day 7 at the end of DL5 induction phase, confirming biologically active doses. 7 pts had best response of RECIST stable disease. A pt with heavily pretreated CRPC achieved RECIST partial response with resolution of CRPC related pain. Conclusions: IACS is well tolerated with preliminary evidence of antitumor activity. MTD expansions include CRPC, TNBC, pancreatic cancer and molecularly selected (ENO1 loss; SMARCA4 mutation) tumor cohorts. Clinical trial information: NCT03291938.

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Precision Oncology Decision Support: Current Approaches and Strategies for the Future

Kurnit

Dumbrava

Litzenburger

et al. 2018

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With the increasing availability of genomics, routine analysis of advanced cancers is now feasible. Treatment selection is frequently guided by the molecular characteristics of a patient's tumor, and an increasing number of trials are genomically selected. Furthermore, multiple studies have demonstrated the benefit of therapies that are chosen based upon the molecular profile of a tumor. However, the rapid evolution of genomic testing platforms and emergence of new technologies make interpreting molecular testing reports more challenging. More sophisticated precision oncology decision support services are essential. This review outlines existing tools available for health care providers and precision oncology teams and highlights strategies for optimizing decision support. Specific attention is given to the assays currently available for molecular testing, as well as considerations for interpreting alteration information. This article also discusses strategies for identifying and matching patients to clinical trials, current challenges, and proposals for future development of precision oncology decision support. .

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