Roles of TrkC Signaling in the Regulation of Tumorigenicity and Metastasis of Cancer

Jin, Wook

doi:10.3390/cancers12010147

Cited by 31 publications

(25 citation statements)

References 162 publications

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“…47, 48 NTRK fusions are known to frequently have upstream partner genes with a coiled-coil domain, such as MPRIP, TPM3, TPR, TFG, ARHGEF2, LMNA, SQSTM1, TRIM63 , and PPL for NTRK1 fusions, TRIM24, PAN3 , and SQSTM1 for NTRK2 fusions, and TPM4, TFG, MYO5A, MYH9, STRN3, STRN , and EML4 for NTRK3 fusions. 47, 49…”

Section: Discussionmentioning

confidence: 99%

NTRK oncogenic fusions are exclusively associated with the serrated neoplasia pathway in the colorectum and begin to occur in sessile serrated lesions

Kim

Hong²,

Choi

et al. 2021

Preprint

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Background: NTRK fusions are emerging tissue-agnostic drug targets in malignancies including colorectal cancers (CRCs), but their detailed landscape in the context of various colorectal carcinogenesis pathways remains to be investigated. Methods: Pan-TRK expression was assessed by immunohistochemistry in retrospectively collected colorectal epithelial tumor tissues, including 441 CRCs (133 microsatellite instability-high (MSI-high) and 308 microsatellite stable (MSS)) and 565 premalignant colorectal lesions (300 serrated lesions and 265 conventional adenomas). TRK-positive cases were subjected to next-generation sequencing and/or fluorescence in situ hybridization to confirm NTRK rearrangements. Results: TRK positivity was not observed in any of the MSS CRCs, conventional adenomas, traditional serrated adenomas, or hyperplastic polyps, whereas TRK positivity was observed in 11 of 58 (19%) sporadic MSI-high CRCs, 4 of 23 (17%) sessile serrated lesions with dysplasia (SSLDs), and 5 of 132 (4%) SSLs. The 11 TRK-positive MSI-high CRCs commonly harbored CpG island methylator phenotype-high (CIMP-high), MLH1 methylation, KRAS/BRAF wild-type, and NTRK1 or NTRK3 fusion (TPM3-NTRK1, TPR-NTRK1, LMNA-NTRK1, SFPQ-NTRK1, ETV6-NTRK3, or EML4-NTRK3). Both NTRK1 or NTRK3 rearrangement and KRAS/BRAF wild-type were detected in all nine TRK-positive SSL(D)s, seven of which demonstrated MSS and/or CIMP-low. TRK overexpression and early dysplastic changes are occasionally co-localized in the crypt base area of SSLs. Age-related occurrence patterns suggest that the progression interval from NTRK-rearranged SSLs to CRCs may be shorter than from BRAF-mutated SSLs to CRCs. Conclusion: NTRK-rearranged colorectal tumors develop exclusively through the serrated neoplasia pathway and can be initiated from non-dysplastic SSLs without KRAS/BRAF mutations prior to full occurrence of MSI-high/CIMP-high.

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Section: Discussionmentioning

confidence: 99%

NTRK oncogenic fusions are exclusively associated with the serrated neoplasia pathway in the colorectum and begin to occur in sessile serrated lesions

Kim

Hong²,

Choi

et al. 2021

Preprint

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“…TRKC plays an important role in regulating angiogenesis, inducing tumor growth, preventing apoptosis and promoting metastasis. Abnormal activation of NTRK3 and its fusion proteins may regulate the epithelial-mesenchymal transition (EMT) process, tumor growth rate and tumorigenicity by activation of several signaling pathways [40].…”

Section: Discussionmentioning

confidence: 99%

Identification of NTRK3 as a potential prognostic biomarker associated with tumor mutation burden and immune infiltration in bladder cancer

Zhang

et al. 2021

Preprint

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Background Bladder cancer (BLCA) is a common malignant tumor of urinary system with high morbidity and mortality. In recent years, immunotherapy plays a significant role in the treatment of BLCA. Tumor mutation burden (TMB) has been reported to be a powerful biomarker to predict tumor prognosis and efficacy of immunotherapy. Our study aimed to explore the relationship between TMB, prognosis and immune infiltration to excavate the key genes in BLCA. Methods Clinical information, somatic mutation and gene expression data of BLCA patients were downloaded from The Cancer Genome Atlas (TCGA) database. According to the calculated TMB scores, patients were divided into high and low TMB groups. Gene Set Enrichment Analysis (GSEA) was performed to screen significantly enriched pathways. Differentially expressed genes (DEGs) between the two groups were identified. Univariate cox analysis and Kaplan-Meier survival analysis were applied for screening key genes. Immune infiltration was performed for TMB groups and NTRK3. Results Higher TMB scores were related with poor survival in BLCA. After filtering, 36 DEGs were identified. NTRK3 had the highest hazard ratio and significant prognostic value. Co-expressed genes of NTRK3 were mainly involved in several pathways, including DNA replication, basal transcription factors, complement and coagulation cascades, and ribosome biogenesis in eukaryotes. There was a significant correlation among TMB scores, NTRK3 expression and immune infiltration. Conclusions Our results suggest that NTRK3 is a TMB-related prognostic biomarker, which lays the foundation for further research on the immunomodulatory effect of NTRK3 in BLCA.

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“…The tropomyosin receptor tyrosine kinases (TRKs) are primarily known for their roles in neuronal differentiation and survival. However, increasing evidence shows that TRK receptors can be found in a host of mammalian cell types to drive several cellular responses (Huang and Reichardt, 2003; Reichardt, 2006) Aberrations in TRK signalling, which can occur through events such as protein overexpression, alternative splicing, or gene amplification, can lead to disease such as cancer (Jin, 2020; Meng et al, 2019; Regua et al, 2019). The receptor tyrosine kinase NTRK2, activates GRB2-Ras-MAPK cascade in neurons and increases secretion by epithelial cells in culture in response to estrogen or progestin treatment and NTRK2 was identified as differentially expressed between stromal and epithelial breast cells which may have implications in invasion and metastasis (Wang et al, 2020) Merging of Fc-receptor and TRK signalling pathways (Fig.…”

Section: Discussionmentioning

confidence: 99%

Signalling Network of Breast Cancer Cells in Response to Progesterone

Wright

Vastolo

et al. 2020

Preprint

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Breast cancer cells enter into the cell cycle following progestin exposure by the activation of signalling cascades involving a plethora of enzymes, transcription factors and co-factors that transmit the external signal from the cell membrane to chromatin, ultimately leading to a change of the gene expression program. Although many of the events within the signalling network have been described in isolation, how they globally team up to generate the final cell response is unclear. In this study we use antibody microarrays and phosphoproteomics to provide a dynamic global signalling map that reveals new key regulated proteins and links between previously known and novel pathways. Detailed analysis of the data revealed intriguing changes in protein complexes involved in nuclear structure, EMT, cell adhesion, as well as transcription factors previously not associated with breast cancer proliferation. As different post-translational modifications can mediate complex crosstalk mechanisms and massive PARylation is also rapidly induced by progestins, we provide details of important chromatin regulatory complexes containing both phosphorylated and PARylated proteins. This study contributes an important resource for the scientific community, as it identifies novel players and connections meaningful for breast cancer cell biology and potentially relevant for cancer management.

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Roles of TrkC Signaling in the Regulation of Tumorigenicity and Metastasis of Cancer

Cited by 31 publications

References 162 publications

NTRK oncogenic fusions are exclusively associated with the serrated neoplasia pathway in the colorectum and begin to occur in sessile serrated lesions

NTRK oncogenic fusions are exclusively associated with the serrated neoplasia pathway in the colorectum and begin to occur in sessile serrated lesions

Identification of NTRK3 as a potential prognostic biomarker associated with tumor mutation burden and immune infiltration in bladder cancer

Signalling Network of Breast Cancer Cells in Response to Progesterone

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