Your search keyword '"Sluijter, Marjolein"' showing total 3 results

1. Targeting pancreatic cancer by TAK-981: a SUMOylation inhibitor that activates the immune system and blocks cancer cell cycle progression in a preclinical model

Author

Kumar, Sumit, Schoonderwoerd, Mark J A, Kroonen, Jessie S, de Graaf, Ilona J, Sluijter, Marjolein, Ruano, Dina, González-Prieto, Román, Verlaan-de Vries, Matty, Rip, Jasper, Arens, Ramon, de Miranda, Noel F C C, Hawinkels, Lukas J A C, van Hall, Thorbald, and Vertegaal, Alfred C O

Abstract

ObjectivePancreatic ductal adenocarcinoma (PDAC) has the characteristics of high-density desmoplastic stroma, a distinctive immunosuppressive microenvironment and is profoundly resistant to all forms of chemotherapy and immunotherapy, leading to a 5-year survival rate of 9%. Our study aims to add novel small molecule therapeutics for the treatment of PDAC.DesignWe have studied whether TAK-981, a novel highly selective and potent small molecule inhibitor of the small ubiquitin like modifier (SUMO) activating enzyme E1 could be used to treat a preclinical syngeneic PDAC mouse model and we have studied the mode of action of TAK-981.ResultsWe found that SUMOylation, a reversible post-translational modification required for cell cycle progression, is increased in PDAC patient samples compared with normal pancreatic tissue. TAK-981 decreased SUMOylation in PDAC cells at the nanomolar range, thereby causing a G2/M cell cycle arrest, mitotic failure and chromosomal segregation defects. TAK-981 efficiently limited tumour burden in the KPC3 syngeneic mouse model without evidence of systemic toxicity. In vivo treatment with TAK-981 enhanced the proportions of activated CD8 T cells and natural killer (NK) cells but transiently decreased B cell numbers in tumour, peripheral blood, spleen and lymph nodes. Single cell RNA sequencing revealed activation of the interferon response on TAK-981 treatment in lymphocytes including T, B and NK cells. TAK-981 treatment of CD8 T cells ex vivo induced activation of STAT1 and interferon target genes.ConclusionOur findings indicate that pharmacological inhibition of the SUMO pathway represents a potential strategy to target PDAC via a dual mechanism: inhibiting cancer cell cycle progression and activating anti-tumour immunity by inducing interferon signalling.

Published

2022

2. The MHC-E peptide ligands for checkpoint CD94/NKG2A are governed by inflammatory signals, whereas LILRB1/2 receptors are peptide indifferent

Author

Middelburg, Jim, Ghaffari, Soroush, Schoufour, Tom A.W., Sluijter, Marjolein, Schaap, Gaby, Göynük, Büsra, Sala, Benedetta M., Al-Tamimi, Lejla, Scheeren, Ferenc, Franken, Kees L.M.C., Akkermans, Jimmy J.L.L., Cabukusta, Birol, Joosten, Simone A., Derksen, Ian, Neefjes, Jacques, van der Burg, Sjoerd H., Achour, Adnane, Wijdeven, Ruud H.M., Weidanz, Jon, and van Hall, Thorbald

Abstract

The immune checkpoint NKG2A/CD94 is a promising target for cancer immunotherapy, and its ligand major histocompatibility complex E (MHC-E) is frequently upregulated in cancer. NKG2A/CD94-mediated inhibition of lymphocytes depends on the presence of specific leader peptides in MHC-E, but when and where they are presented in situis unknown. We apply a nanobody specific for the Qdm/Qa-1bcomplex, the NKG2A/CD94 ligand in mouse, and find that presentation of Qdm peptide depends on every member of the endoplasmic reticulum-resident peptide loading complex. With a turnover rate of 30 min, the Qdm peptide reflects antigen processing capacity in real time. Remarkably, Qdm/Qa-1bcomplexes require inflammatory signals for surface expression in situ, despite the broad presence of Qa-1bmolecules in homeostasis. Furthermore, we identify LILRB1 as a functional inhibition receptor for MHC-E in steady state. These data provide a molecular understanding of NKG2A blockade in immunotherapy and assign MHC-E as a convergent ligand for multiple immune checkpoints.

Published

2023

3. T cells specific for a TAP-independent self-peptide remain naïve in tumor-bearing mice and are fully exploitable for therapy

Author

Doorduijn, Elien M., Sluijter, Marjolein, Marijt, Koen A., Querido, Bianca J., van der Burg, Sjoerd H., and van Hall, Thorbald

Abstract

ABSTRACTCancers frequently evade immune-recognition by lowering peptide:MHC-I complexes on their cell surface. Limited peptide supply due to TAP-deficiency results in such MHC-Ilowimmune-escape variants. Previously, we reported on a category of TAP-independent self-peptides, called TEIPP, with selective presentation by these tumors. Here we demonstrate that in contrast to T cells specific for conventional tumor antigens, TEIPP-directed T cells remain naïve in mice bearing immune-escaped tumors. This unaffected state was caused by low levels of MHC-I on the tumors and the failure to cross-present low levels of antigenic protein by host APCs. Importantly, increased levels of MHC-I, antigen or co-stimulation resulted in potent activation of TEIPP-specific T cells via direct presentation. Genetic knockdown by CRISPR/Cas9 technology of the relevant MHC-I allele in tumor cells indeed abrogated T cell activation. Vaccine-mediated priming of TEIPP-specific T cells induced efficient homing to MHC-Ilowtumors and subsequently protected mice against outgrowth of their MHC-Ilowtumor. Thus, our data open up the search of TEIPP-specific T cells in cancer patients to explore their application against MHC-Ilowtumor cells.

Published

2018