Monia Sisi scite author profile

DNA damage response and repair ( DDR) genes play a central role in the life of actively replicating cells, cooperating to maintenance of genomic integrity. However, exogenous or endogenous factors, including deficiency in DDR genes, can cause different degrees of DNA damage that profoundly impacts the tumor immunogenicity and enhance antitumor immune response through neoantigen-dependent and neoantigen-independent mechanisms. Inhibition of DDRs is already an effective therapeutic strategy in different cancer types. In addition, because DDR inhibition can also induce and amplify DNA damage in cancer cells, with a deep impact on antitumor immune responses, combining DDR inhibitors with immune checkpoint inhibitors represent an attractive therapeutic strategy to potentially improve the clinical outcomes of patients with metastatic cancer. In this review, we provide an overview of the rational and potential of combining DDR and immune checkpoint inhibition to exploit the enhanced antitumor immune response induced by DNA damage.

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The Mechanisms of PD-L1 Regulation in Non-Small-Cell Lung Cancer (NSCLC): Which Are the Involved Players?

Sisi

Andrini

Palladini

et al. 2020

Cancers

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Treatment with inhibition of programmed cell death 1 (PD-1) or its ligand (PD-L1) improves survival in advanced non-small-cell lung cancer (NSCLC). Nevertheless, only a subset of patients benefit from treatment and biomarkers of response to immunotherapy are lacking. Expression of PD-L1 on tumor cells is the primary clinically-available predictive factor of response to immune checkpoint inhibitors, and its relevance in cancer immunotherapy has fostered several studies to better characterize the mechanisms that regulate PD-L1 expression. However, the factors associated with PD-L1 expression are still not well understood. Genomic alterations that activate KRAS, EGFR, and ALK, as well as the loss of PTEN, have been associated with increased PD-L1 expression. In addition, PD-L1 expression is reported to be increased by amplification of CD274, and decreased by STK11 deficiency. Furthermore, PD-L1 expression can be modulated by either tumor extrinsic or intrinsic factors. Among extrinsic factors, the most prominent one is interferon-γ release by immune cells, while there are several tumor intrinsic factors such as activation of the mechanistic target of rapamycin (mTOR), mitogen-activated protein kinase (MAPK) and Myc pathways that can increase PD-L1 expression. A deeper understanding of PD-L1 expression regulation is crucial for improving strategies that exploit inhibition of this immune checkpoint in the clinic, especially in NSCLC where it is central in the therapeutic algorithm. We reviewed current preclinical and clinical data about PD-L1 expression regulation in NSCLC.

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Hyperammonemic encephalopathy during XELOX regimen. Is it capecitabine or oxaliplatin responsible?

Federico

Nuvola

Sisi

et al. 2020

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Hyperammonemic encephalopathy represents a rare adverse effect of several chemotherapeutic agents, occurring in about 0.7% of patients treated with fluoropyrimidines, and it is independent from dihydropyrimidine dehydrogenase deficiency. Instead, its physiopathology is linked to the inhibition of Krebs cycle by fluoroacetate, leading to decreased ATP production, and to the inhibition of the urea cycle. Oxaliplatin seems to induce hyperammonemic encephalopathy in a similar way, acting on mitochondria. Here, we report the intriguing case of acute hyperammonemic encephalopathy in a 65-year-old patient with preserved liver function, who was treated with oxaliplatin and capecitabine for a metastatic, G1, atypical lung carcinoid. We reviewed the literature and found very few reports of oxaliplatin or capecitabine-induced hyperammonemic encephalopathy. Out of five cases of capecitabine-related hyperammonemic encephalopathy analyzed (four plus our case), median time to hyperammonemic encephalopathy onset was 6 days, with median serum ammonia levels of 213 μmol/L. Oxaliplatin-related hyperammonemic encephalopathy analyzed cases were three (two plus ours), with a median time to hyperammonemic encephalopathy of 11 days and median serum ammonia levels of 167 μmol/L. Identified predisposing factors for chemotherapy-induced hyperammonemia, such as dehydration, liver and renal impairment, infections, and sarcopenia were absent in our case. We hypothesize that the combination of a platinum-derivative and a fluoropyrimidine multiplies the risk of hyperammonemic encephalopathy, even in the absence of predisposing factors nor impaired liver function. We therefore suggest to always consider the risk of hyperammonemia when starting fluoropyrimidines-based chemotherapy, especially combined with platinum-derivatives, and to timely investigate neurologic symptoms monitoring ammonia serum levels.

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Monia Sisi

Beyond EGFR, ALK and ROS1: Current evidence and future perspectives on newly targetable oncogenic drivers in lung adenocarcinoma

Targeting DNA Damage Response and Repair Genes to Enhance Anticancer Immunotherapy: Rationale and Clinical Implication

The Mechanisms of PD-L1 Regulation in Non-Small-Cell Lung Cancer (NSCLC): Which Are the Involved Players?

Hyperammonemic encephalopathy during XELOX regimen. Is it capecitabine or oxaliplatin responsible?

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