Functional diversification of cell signaling by GPCR localization

G protein-coupled receptors (GPCRs) are the largest family of cell surface receptors and a critical class of regulators of mammalian physiology. Also known as seven transmembrane receptors (7TMs), GPCRs are ubiquitously expressed and versatile, detecting a diverse set of endogenous stimuli, including odorants, neurotransmitters, hormones, peptides, and lipids. Accordingly, GPCRs have emerged as the largest class of drug targets, accounting for upward of 30% of all prescription drugs. The view that ligand-induced GPCR responses originate exclusively from the cell surface has evolved to reflect accumulating evidence that receptors can elicit additional waves of signaling from intracellular compartments. These events in turn shape unique cellular and physiological outcomes. Here, we discuss our current understanding of the roles and regulation of compartmentalized GPCR signaling.

Flu vaccination rate of patients with severe immune-related adverse events

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Background: Infection with influenza in adults with cancer carries an increased risk of morbidity and mortality. Vaccination against seasonal influenza (Flu-V) can decrease the incidence of influenza, shorten its course, and reduce influenza-associated morbidity. Recent data has suggested that the administration of the Flu-V to patients on an ICI leads to an exaggerated inflammatory response and an increased risk of irAE. However, this trend was demonstrated in a small cohort of patients with lung cancer. Current recommendation for annual Flu-V in patients treated with ICI is unclear and literature about safety is limited. We compared rates of Flu-V for patients on ICI admitted with severe toxicity vs those patients on ICI who were admitted for reasons other than toxicity. We also evaluated rate of Flu-V among oncology patients who had received non-immunotherapy modalities. Methods: We retrospectively evaluated patients treated with ICI who were admitted to Massachusetts General Hospital from February 5, 2011- June 12, 2017. Patients received ipilimumab, pembrolizumab, nivolumab, atezolizumab, durvalumab, avelumab, or a combination in treatment of an advanced solid tumor malignancies including melanoma, NSCLC, SCCHN. Admissions due to irAE were confirmed by review of clinical, radiologic, and pathologic features. Flu-V status was determined by rigorous chart review. Nearest neighbor matching was used to create a control group of cancer patients treated with non-ICI modalities. Descriptive statistics compared rates and timing of Flu-V relative to admission. Statistical significance was determined using Fischer’s Exact Test, p < 0.05. Results: Of 540 patients on ICI, 28% were admitted for irAE, 72% had a non-irAE reason for admission. The rate of Flu-V in the flu season prior to admission for irAE group was lower than for non-irAE (18.5% vs 29.6%; p value = 0.01). There were no differences in vaccination rates within ≤30 days (2.7% vs 3.6%, p = 0.80), ≤90 days (4.0% vs 9.3%, p = 0.05), or ≤180 days of admission (11.9% vs 18.5%, p = 0.07). Flu-V rate overall in patients on ICI was 26.5%. In comparison, Flu-V rate in the nearest neighbor non-immunotherapy oncology patients was 67% (n = 101). Conclusions: Flu-V rates were much lower in patients treated with ICI compared to patients treated with non-ICI modalities. We did not see a higher rate of Flu-V in patients admitted with irAE compared to non-irAE which suggests that Flu-V and severe irAE may not be linked in clinical practice. Additional studies are needed, but Flu-V in patients on ICI holds potential to improve care.