NSD1: A Lysine Methyltransferase between Developmental Disorders and Cancer

Tauchmann, Samantha; Schwaller, Juerg

doi:10.3390/life11090877

Cited by 13 publications

(14 citation statements)

References 88 publications

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“…NSD1 (histone H3 lysine 36 methyltransferase) is involved in chromatin organization and is considered an epigenetic regulator [40]. Somatic loss-of-function NSD1 mutations are among the most prevalent lesions in human head and neck and lung squamous cell carcinomas, neuroblastomas and glioblastomas, and NSD1 gene silencing has been detected in clear cell renal cell carcinoma and urogenital cancers (reviewed by Tauchmann and Schwaller [40]). Little is known regarding the role of NSD1 in colorectal cancer; however, publicly available data indicate that NSD1 somatic alterations occur in 4% of colon cancers (source: cBioPortal; accessed Jan. 2022).…”

Section: Discussionmentioning

confidence: 99%

Potential Involvement of NSD1, KRT24 and ACACA in the Genetic Predisposition to Colorectal Cancer

Quintana

Mur

Terradas

et al. 2022

Cancers

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The ALFRED (Allelic Loss Featuring Rare Damaging) in silico method was developed to identify cancer predisposition genes through the identification of somatic second hits. By applying ALFRED to ~10,000 tumor exomes, 49 candidate genes were identified. We aimed to assess the causal association of the identified genes with colorectal cancer (CRC) predisposition. Of the 49 genes, NSD1, HDAC10, KRT24, ACACA and TP63 were selected based on specific criteria relevant for hereditary CRC genes. Gene sequencing was performed in 736 patients with familial/early onset CRC or polyposis without germline pathogenic variants in known genes. Twelve (predicted) damaging variants in 18 patients were identified. A gene-based burden test in 1596 familial/early-onset CRC patients, 271 polyposis patients, 543 TCGA CRC patients and >134,000 controls (gnomAD, non-cancer), revealed no clear association with CRC for any of the studied genes. Nevertheless, (non-significant) over-representation of disruptive variants in NSD1, KRT24 and ACACA in CRC patients compared to controls was observed. A somatic second hit was identified in one of 20 tumors tested, corresponding to an NSD1 carrier. In conclusion, most genes identified through the ALFRED in silico method were not relevant for CRC predisposition, although a possible association was detected for NSD1, KRT24 and ACACA.

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Section: Discussionmentioning

confidence: 99%

Potential Involvement of NSD1, KRT24 and ACACA in the Genetic Predisposition to Colorectal Cancer

Quintana

Mur

Terradas

et al. 2022

Cancers

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“…While these chromatin remodelers are significantly miss-regulated in many cancers (Lu and Roberts, 2013),(Prendergast et al ., 2020),(Li et al ., 2021), N-HCAR1 activated by higher concentration of lactate seen in tumor (Warburg effect) could alter their activity (in favor of cancer promotion). Interestingly, inactive N-HCAR1 also interacted with NSD1, a histone methyltransferase known to bind to different nuclear receptors (including estrogen, thyroid, retinoic acid, and retinoid receptors) (Tauchmann and Schwaller, 2021); since NSD1 is frequently mis-regulated in cancers (Tauchmann and Schwaller, 2021) it is tempting to speculate that metabolic rewiring could cause epigenomic alterations in favor of cancer malignancy. Concordantly, our genome-wide association study shows how N-HCAR1 could directly promote expression of genes involved in migration potentially through these epigenetic modulations.…”

Section: Discussionmentioning

confidence: 99%

Nuclear Location Bias of HCAR1 Drives Cancer Malignancy through Numerous Routes

Nezhady

Cagnone

Bajon

et al. 2022

Preprint

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The involvement of G-Protein-Coupled Receptors (GPCR) location bias in diverse cellular functions and their misregulation in pathology is an underexplored territory. HCAR1, a GPCR for lactate is linked to cancer progression, mainly due to Warburg effect, but its mechanism of action remains elusive. Here, we show HCAR1 has a nuclear localization, capable of signaling intranuclearly to induce nuclear-ERK and AKT phosphorylation concomitant with higher cancer cell proliferation and survival. We determine its nuclear interactome, proving its involvement in protein-translation and DNA-damage repair. Nuclear HCAR1 (N-HCAR1) directly interacts with chromatin/DNA promoting expression of genes involved in cellular migration. Notably, we show N-HCAR1 particularly regulates a broader transcriptomic signature than its PM counterpart, emphasizing on the facts that functional output of N-HCAR1 is larger than PM localized HCAR1. Our study presents several unprecedented processes by which a GPCR through location-biased activity regulate various cellular functions and how cancer cells exploit these.

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“…The nuclear receptor binding SET domain protein 2 (NSD2) (also known as MMSET, and WHSC1) (Lam et al, 2022) and its human paralogs NSD1 (also known as KMT3B) (Tauchmann and Schwaller, 2021) and NSD3 (WHSC1L1) (Rathert, 2021), are Su(var)3–9, Enhancer-of-zeste, Trithorax (SET) domain containing PKMTs (Lam et al, 2022; Rayasam et al, 2003). All NSD enzymes share a similar domain organization.…”

Section: Introductionmentioning

confidence: 99%

The T1150A cancer mutant of the protein lysine dimethyltransferase NSD2 can introduce H3K36 trimethylation

Khella

Schnee

Weirich

et al. 2023

Preprint

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Somatic mutations in protein lysine methyltransferases are frequently observed in cancer cells. We show here that the NSD1 mutations Y1971C, R2017Q and R2017L observed mostly in solid cancers are catalytically inactive suggesting that NSD1 acts as tumor suppressor gene in these tumors. In contrast, the frequent T1150A in NSD2 and its T2029A counterpart in NSD1, both observed in leukemia, are hyperactive and introduce up to H3K36me3 in biochemical and cellular assays, while wildtype NSD2 and NSD1 only generate up to H3K36me2. MD simulations with NSD2 revealed that H3K36me3 formation is possible due to an enlarged active site pocket of T1150A and loss of direct contacts of T1150 to critical residues which regulate the product specificity of NSD2. Bioinformatic analyses of published data suggest that the NSD2 T1150A mutation in lymphocytic leukemia could alter gene regulation by antagonizing H3K27me3 finally leading to the upregulation of oncogenes.

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NSD1: A Lysine Methyltransferase between Developmental Disorders and Cancer

Cited by 13 publications

References 88 publications

Potential Involvement of NSD1, KRT24 and ACACA in the Genetic Predisposition to Colorectal Cancer

Potential Involvement of NSD1, KRT24 and ACACA in the Genetic Predisposition to Colorectal Cancer

Nuclear Location Bias of HCAR1 Drives Cancer Malignancy through Numerous Routes

The T1150A cancer mutant of the protein lysine dimethyltransferase NSD2 can introduce H3K36 trimethylation

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