Nathan D. Seligson scite author profile

Background Soft‐tissue sarcomas (STS) describe a heterogeneous group of mesenchymal tumors with limited treatment options. Targeted therapies exist for BRCA1/2 gene alterations, but their prevalence and role have not been fully described in STS. Here, we present the largest effort to characterize the frequency of homologous recombination (HR) DNA repair pathway alterations in STS subtypes and highlight the unique nature of leiomyosarcoma (LMS). Materials and Methods DNA sequencing data were analyzed for HR pathway alterations for 1,236 patients with STS. DNA sequencing data from an additional 1,312 patients were used to confirm the prevalence of HR pathway alterations in LMS. Four uterine LMS (uLMS) patients with functional BRCA2 loss were evaluated for response to poly (ADP‐ribose) polymerase (PARP) inhibition. Results In an unselected STS study population, BRCA2 alterations were identified in 15 (1%) patients, and homozygous BRCA2 loss was detected in 9 (<1%). However, subset analysis revealed that these BRCA2 alterations were concentrated in uLMS as compared with any other STS subtype. Notably, 10% of uLMS tumors had a BRCA2 alteration. We further report that PARP inhibitors had demonstrated durable clinical benefit in four uLMS patients with BRCA2 loss. Conclusion HR pathway alterations are rare in most STS. However, we identify uLMS to be enriched for BRCA2 loss and report the positive outcomes of a series of patients treated with PARP inhibitors. Our data suggest that patients with uLMS should be considered for somatic BRCA2 profiling. Prospective trials are necessary to confirm the efficacy of PARP inhibition in uLMS. Implications for Practice Soft‐tissue sarcomas are a highly morbid, diverse set of tumors with limited treatment options. This study identifies an increased prevalence of functional BRCA1/2 loss in patients with uterine leiomyosarcoma (uLMS). It also presents four patients with uLMS and BRCA2 loss who achieved durable clinical benefit from poly (ADP‐ribose) polymerase inhibition. These data suggest that patients with uLMS in particular should be screened for BRCA1/2 alterations and may benefit from treatment targeted to these alterations.

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Developing Drugs for Tissue‐Agnostic Indications: A Paradigm Shift in Leveraging Cancer Biology for Precision Medicine

Seligson

Knepper

Ragg

et al. 2020

Clin Pharma and Therapeutics

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Targeted therapies have reshaped the landscape of the development of cancer therapeutics. Recent biomarker‐driven, tissue‐agnostic clinical trials represent a significant paradigm shift in precision cancer medicine. Despite their growth in preclinical and clinical studies, to date only a few biomarker‐driven, tissue‐agnostic indications have seen approval by the US Food and Drug Administration (FDA). These approvals include pembrolizumab in microsatellite instability‐high or mismatch repair deficient solid tumors, as well as both larotrectinib and entrectinib in NTRK fusion‐positive tumors. Complex cancer biology, clinical trial design, and identification of resistance mechanisms represent some of the challenges that future tissue‐agnostic therapies have to overcome. In this Review, we present a brief history of the development of tissue‐agnostic therapies, comparing the similarities in the approval of pembrolizumab, larotrectinib, and entrectinib for tissue‐agnostic indications. We also explore the future of tissue‐agnostic cancer therapeutics while identifying important challenges for the future that drugs targeting tissue‐agnostic indications will face.

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Convergence of therapy-induced senescence (TIS) and EMT in multistep carcinogenesis: current opinions and emerging perspectives

et al. 2020

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Drug induced resistance is a widespread problem in the clinical management of cancer. Cancer cells, when exposed to cytotoxic drugs, can reprogram their cellular machinery and resist cell death. Evasion of cell death mechanisms, such as apoptosis and necroptosis, are part of a transcriptional reprogramming that cancer cells utilize to mediate cytotoxic threats. An additional strategy adopted by cancer cells to resist cell death is to initiate the epithelial to mesenchymal transition (EMT) program. EMT is a trans-differentiation process which facilitates a motile phenotype in cancer cells which can be induced when cells are challenged by specific classes of cytotoxic drugs. Induction of EMT in malignant cells also results in drug resistance. In this setting, therapy-induced senescence (TIS), an enduring “proliferative arrest”, serves as an alternate approach against cancer because cancer cells remain susceptible to induced senescence. The molecular processes of senescence have proved challenging to understand. Senescence has previously been described solely as a tumor-suppressive mechanism; however, recent evidences suggest that senescence-associated secretory phenotype (SASP) can contribute to tumor progression. SASP has also been identified to contribute to EMT induction. Even though the causes of senescence and EMT induction can be wholly different from each other, a functional link between EMT and senescence is still obscure. In this review, we summarize the evidence of potential cross-talk between EMT and senescence while highlighting some of the most commonly identified molecular players. This review will shed light on these two intertwined and highly conserved cellular process, while providing background of the therapeutic implications of these processes.

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