Blair Stewig scite author profile

Immune checkpoint blockade (ICB) therapy revolutionized cancer treatment, but many patients with impaired MHC-I expression remain refractory. Here, we combined FACS-based genome-wide CRISPR screens with a data-mining approach to identify drugs that can upregulate MHC-I without inducing PD-L1. CRISPR screening identified TRAF3, a suppressor of the NFκB pathway, as a negative regulator of MHC-I but not PD-L1. The Traf3-knockout gene expression signature is associated with better survival in ICB-naïve patients with cancer and better ICB response. We then screened for drugs with similar transcriptional effects as this signature and identified Second Mitochondria-derived Activator of Caspase (SMAC) mimetics. We experimentally validated that the SMAC mimetic birinapant upregulates MHC-I, sensitizes cancer cells to T cell–dependent killing, and adds to ICB efficacy. Our findings provide preclinical rationale for treating tumors expressing low MHC-I expression with SMAC mimetics to enhance sensitivity to immunotherapy. The approach used in this study can be generalized to identify other drugs that enhance immunotherapy efficacy. Significance: MHC-I loss or downregulation in cancer cells is a major mechanism of resistance to T cell–based immunotherapies. Our study reveals that birinapant may be used for patients with low baseline MHC-I to enhance ICB response. This represents promising immunotherapy opportunities given the biosafety profile of birinapant from multiple clinical trials. This article is highlighted in the In This Issue feature, p. 1307

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Concurrent depletion of Vps37 proteins evokes ESCRT-I destabilization and profound cellular stress responses

Kolmus

Erdenebat

Szymańska

et al. 2021

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Molecular details of how endocytosis contributes to oncogenesis remain elusive. Our in silico analysis of colorectal cancer (CRC) patients revealed stage-dependent alterations in the expression of 112 endocytosis-related genes. Among them, transcription of the endosomal sorting complex required for transport (ESCRT)-I component VPS37B was decreased in the advanced stages of CRC. Expression of other ESCRT-I core subunits remained unchanged in the investigated dataset. We analyzed an independent cohort of CRC patients, which also showed reduced VPS37A mRNA and protein abundance. Transcriptomic profiling of CRC cells revealed non-redundant functions of Vps37 proteins. Knockdown of VPS37A and VPS37B triggered p21 (CDKN1A)-mediated inhibition of cell proliferation and sterile inflammatory response driven by the nuclear factor (NF)-κB transcription factor and associated with mitogen-activated protein kinase signaling. Co-silencing of VPS37C further potentiated activation of these independently induced processes. The type and magnitude of transcriptional alterations correlated with the differential ESCRT-I stability upon individual and concurrent Vps37 depletion. Our study provides novel insights into cancer cell biology by describing cellular stress responses that are associated with ESCRT-I destabilization.

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Concurrent depletion of Vps37 proteins evokes ESCRT-I destabilization and profound cellular stress responses

Kolmus

Erdenebat

Stewig

et al. 2020

Preprint

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ABSTRACTMolecular details of how endocytosis contributes to oncogenesis remain elusive. Our in silico analysis of colorectal cancer (CRC) patients revealed stage-dependent alterations in the expression of 113 endocytosis-related genes. Among them transcription of the Endosomal Sorting Complex Required for Transport (ESCRT)-I component VPS37B was decreased in the advanced stages of CRC. Expression of other ESCRT-I core subunits remained unchanged in the investigated dataset. We analyzed an independent cohort of CRC patients showing also reduced VPS37A mRNA and protein abundance. Transcriptomic profiling of CRC cells revealed non-redundant functions of Vps37 proteins. Knockdown of VPS37A and VPS37B triggered p21-mediated inhibition of cell proliferation and sterile inflammatory response driven by the Nuclear Factor (NF)-κB transcription factor and associated with mitogen-activated protein kinase signaling. Co-silencing of VPS37C further potentiated activation of these independently induced processes. The type and magnitude of transcriptional alterations correlated with the differential ESCRT-I stability upon individual and concurrent Vps37 depletion. Our study provides novel insights into cancer cell biology by describing cellular stress responses that are associated with ESCRT-I destabilization, which might occur in CRC patients.SUMMARY STATEMENTEndosomal Sorting Complex Required for Transport (ESCRT)-I destabilization upon concurrent depletion of Vps37 proteins is linked to the activation of sterile inflammatory response and cell growth inhibition.

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Table S4 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Gu¹,

Zhang²,

Wang³

et al. 2023

Preprint

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Supplementary Figures from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Gu¹,

Zhang²,

Wang³

et al. 2023

Preprint

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Supplementary Figures from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Gu¹,

Zhang²,

Wang³

et al. 2023

Preprint

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Table S2 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Gu¹,

Zhang²,

Wang³

et al. 2023

Preprint

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Table S6 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Gu¹,

Zhang²,

Wang³

et al. 2023

Preprint

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Blair Stewig

Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Concurrent depletion of Vps37 proteins evokes ESCRT-I destabilization and profound cellular stress responses

Concurrent depletion of Vps37 proteins evokes ESCRT-I destabilization and profound cellular stress responses

Table S4 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Supplementary Figures from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Supplementary Figures from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Table S2 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

Table S6 from Therapeutically Increasing MHC-I Expression Potentiates Immune Checkpoint Blockade

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