Regina Andrijes scite author profile

MINA53 is a JmjC domain 2-oxoglutarate-dependent oxygenase that catalyzes ribosomal hydroxylation and is a target of the oncogenic transcription factor c -MYC. Despite its anticancer target potential, no small-molecule MINA53 inhibitors are reported. Using ribosomal substrate fragments, we developed mass spectrometry assays for MINA53 and the related oxygenase NO66. These assays enabled the identification of 2-(aryl)alkylthio-3,4-dihydro-4-oxoypyrimidine-5-carboxylic acids as potent MINA53 inhibitors, with selectivity over NO66 and other JmjC oxygenases. Crystallographic studies with the JmjC demethylase KDM5B revealed active site binding but without direct metal chelation; however, molecular modeling investigations indicated that the inhibitors bind to MINA53 by directly interacting with the iron cofactor. The MINA53 inhibitors manifest evidence for target engagement and selectivity for MINA53 over KDM4–6. The MINA53 inhibitors show antiproliferative activity with solid cancer lines and sensitize cancer cells to conventional chemotherapy, suggesting that further work investigating their potential in combination therapies is warranted.

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Tetraspanin 6 is a regulator of carcinogenesis in colorectal cancer

Andrijes

Hejmadi

Pugh

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Early stages of colorectal cancer (CRC) development are characterized by a complex rewiring of transcriptional networks resulting in changes in the expression of multiple genes. Here, we demonstrate that the deletion of a poorly studied tetraspanin protein Tspan6 in Apcmin/+ mice, a well-established model for premalignant CRC, resulted in increased incidence of adenoma formation and tumor size. We demonstrate that the effect of Tspan6 deletion results in the activation of EGF-dependent signaling pathways through increased production of the transmembrane form of TGF-α (tmTGF-α) associated with extracellular vesicles. This pathway is modulated by an adaptor protein syntenin-1, which physically links Tspan6 and tmTGF-α. In support of this, the expression of Tspan6 is frequently decreased or lost in CRC, and this correlates with poor survival. Furthermore, the analysis of samples from the epidermal growth factor receptor (EGFR)–targeting clinical trial (COIN trial) has shown that the expression of Tspan6 in CRC correlated with better patient responses to EGFR-targeted therapy involving Cetuximab. Importantly, Tspan6-positive patients with tumors in the proximal colon (right-sided) and those with KRAS mutations had a better response to Cetuximab than the patients that expressed low Tspan6 levels. These results identify Tspan6 as a regulator of CRC development and a potential predictive marker for EGFR-targeted therapies in CRC beyond RAS pathway mutations.

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The CD151‐midkine pathway regulates the immune microenvironment in inflammatory breast cancer

Hayward

Gachehiladze

Badr

et al. 2020

The Journal of Pathology

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The immune microenvironment in inflammatory breast cancer (IBC) is poorly characterised, and molecular and cellular pathways that control accumulation of various immune cells in IBC tissues remain largely unknown. Here, we discovered a novel pathway linking the expression of the tetraspanin protein CD151 in tumour cells with increased accumulation of macrophages in cancerous tissues. It is notable that elevated expression of CD151 and a higher number of tumourinfiltrating macrophages correlated with better patient responses to chemotherapy. Accordingly, CD151-expressing IBC xenografts were characterised by the increased infiltration of macrophages. In vitro migration experiments demonstrated that CD151 stimulates the chemoattractive potential of IBC cells for monocytes via mechanisms involving midkine (a heparin-binding growth factor), integrin α6β1, and production of extracellular vesicles (EVs). Profiling of chemokines secreted by IBC cells demonstrated that CD151 increases production of midkine. Purified midkine specifically stimulated migration of monocytes, but not other immune cells. Further experiments demonstrated that the chemoattractive potential of IBC-derived EVs is blocked by anti-midkine antibodies. These results demonstrate for the first time that changes in the expression of a tetraspanin protein by tumour cells can affect the formation of the immune microenvironment by modulating recruitment of effector cells to cancerous tissues. Therefore, a CD151-midkine pathway can be considered as a novel target for controlled changes of the immune landscape in IBC.

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Impaired protein hydroxylase activity causes replication stress and developmental abnormalities in humans

Fletcher¹,

Hall²,

Kennedy³

et al. 2023

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Although protein hydroxylation is a relatively poorly characterized post-translational modification, it has received significant recent attention following seminal work uncovering its role in oxygen sensing and hypoxia biology. Although the fundamental importance of protein hydroxylases in biology is becoming clear, the biochemical targets and cellular functions often remain enigmatic. JMJD5 is a 'JmjC-only' protein hydroxylase that is essential for murine embryonic development and viability. However, no germline variants in JmjC-only hydroxylases, including JMJD5, have yet been described that are associated with any human pathology. Here we demonstrate that biallelic germline JMJD5 pathogenic variants are deleterious to JMJD5 mRNA splicing, protein stability, and hydroxylase activity, resulting in a human developmental disorder characterised by severe failure to thrive, intellectual disability, and facial dysmorphism. We show that the underlying cellular phenotype is associated with increased DNA replication stress and that this is critically dependent on the protein hydroxylase activity of JMJD5. This work contributes to our growing understanding of the role and importance of protein hydroxylases in human development and disease.

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A protein hydroxylase couples epithelial membrane biology to nucleolar ribosome biogenesis

Hendrix

Andrijes

Boora

et al. 2023

Preprint

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Jumonji-C (JmjC) ribosomal protein hydroxylases are an ancient class of oxygen- and Fe(II)-dependent oxygenases that spawned the wider JmjC family and Histone Lysine Demethylases (KDMs) in eukaryotes. Myc-induced Antigen (MINA) has been implicated in ribosome biogenesis and was assigned as a nucleolar-localized JmjC histidyl hydroxylase of the large ribosomal subunit protein RPL27A, consistent with reports that it supports cell growth and viability in a variety of tumor cell types. Reported roles in diverse aspects of disease biology may be consistent with additional MINA functions, although the molecular mechanisms involved remain unclear. Here, we describe an extra-nucleolar interaction of MINA with the Hinge domain of the membrane-associated guanylate kinase, MPP6. We show that MINA promotes the expression and membrane localization of MPP6 and that the MINA-MPP6 pathway is required for epithelial tight junction integrity and barrier function. The function of MINA in this novel pathway is suppressed by ribosomal RNA transcription and the nucleolar MINA interactome, which sequesters MINA in the nucleoli of growing cells. Our work sheds light on how quiescent cells lose adhesion as they switch to proliferate states associated with increased ribosome biogenesis.

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Regina Andrijes

First-in-Class Inhibitors of the Ribosomal Oxygenase MINA53

Tetraspanin 6 is a regulator of carcinogenesis in colorectal cancer

The CD151‐midkine pathway regulates the immune microenvironment in inflammatory breast cancer

Impaired protein hydroxylase activity causes replication stress and developmental abnormalities in humans

A protein hydroxylase couples epithelial membrane biology to nucleolar ribosome biogenesis

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