Glycosylation of FGFR4 in cholangiocarcinoma regulates receptor processing and cancer signaling.

Recent advances in targeted treatment for cholangiocarcinoma have focused on fibroblast growth factor (FGF) signaling. There are four receptor tyrosine kinases that respond to FGFs, and posttranslational processing has been demonstrated for each FGF receptor. Here, we investigated the role of N-linked glycosylation on the processing and function of FGFR4. We altered glycosylation through enzymatic deglycosylation, small molecule inhibition of glycosyltransferases, or through site-directed mutagenesis of selected asparagine residues in FGFR4. Signaling was tested through caspase activation, migration, and subcellular localization of FGFR4. Our data demonstrate that FGFR4 has multiple glycoforms, with predominant bands relating to the full-length receptor that has a high mannose- or hybrid-type form and a complex-type glycan form. We further identified a set of faster migrating FGFR4 bands that correspond to the intracellular kinase domain, termed FGFR4 intracellular domain (R4-ICD). These glycoforms and R4-ICD were detected in human cholangiocarcinoma tumor samples, where R4-ICD was predominant. Removal of glycans in intact cells by enzymatic deglycosylation resulted in increased processing to R4-ICD. Inhibition of glycosylation using NGI-1, an oligosaccharyltransferase inhibitor, reduced both high mannose- or hybrid- and complex-type glycan forms of FGFR4, increased processing and sensitized to apoptosis. Mutation of Asn-112, Asn-258, Asn-290, or Asn-311 to glutamine modestly reduced apoptosis resistance, while mutation of Asn-322 or simultaneous mutation of the other four asparagine residues caused a loss of cytoprotection by FGFR4. None of the glycomutants altered the migration of cancer cells. Finally, mutation of Asn-112 caused a partial localization of FGFR4 to the Golgi. Overall, preventing glycosylation at individual residues reduced the cell survival function of FGFR4 and receptor glycosylation may regulate access to an extracellular protease or proteolytic susceptibility of FGFR4.

Next-generation sequencing identifies novel single nucleotide polymorphisms in high-risk cutaneous squamous cell carcinoma: A pilot study.

BACKGROUND: Cutaneous squamous cell carcinoma (SCC) causes 1 million cases in the United States annually. There are germline single nucleotide polymorphisms (SNPs) that result in an increased risk of SCC and altered response to therapy. PREMISE: There may be biologically relevant SNPs not detected using traditional GWAS studies. HYPOTHESIS: There are clinically and biologically relevant SNPs in high-risk SCC that may only be appreciated with next-generation sequencing. HOW TO TEST HYPOTHESIS: We performed next-generation sequencing (NGS) on primary SCCs using a targeted mutation panel with 76 cancer-associated genes. We analysed the presence of SNPs in a cohort of 20 high-risk SCCs compared to the American population (AP) (dbSNP). RELEVANCE AND PERSPECTIVES: Missense rs3822214 was present in significantly more SCC cases versus the AP. While the remainder is synonymous SNPs, there is growing evidence suggesting clinical relevance of these variants. A larger cohort to validate these findings would be useful.

Gene Expression Profiles in Cutaneous Oncology.

Skin cancer is highly curable under most circumstances; however, locally advanced or metastatic disease historically has poor outcomes and limited treatment options. Treatment has recently been advanced by the discovery of pertinent genes influencing pathogenesis and further revolutionized by the advent of specific gene expression profiles (GEPs). GEPs have been developed to help refine current diagnostic and prognostic strategies used in skin cancer with the goal to ultimately help guide management and treatment modalities to improve patient care. This article provides a high-level review of diagnostic and prognostic GEPs that have been developed specifically for squamous cell carcinoma and melanoma.

Analysis of mutations in cutaneous squamous cell carcinoma reveals novel genes and mutations associated with patient-specific characteristics and metastasis: a systematic review.

Cutaneous squamous cell carcinoma (SCC) causes approximately 1,000,000 cases and 9000 deaths each year in the United States. While individual tumor sequencing studies have discovered driver mutations in SCC, there has yet to be a review and subsequent analysis synthesizing current studies. To conduct a comprehensive synthesis and analysis of SCC sequencing studies with individual patient-level data, a comprehensive literature search was performed. Statistical analyses were performed to identify trends. Studies meeting inclusion criteria included a total of 279 patients (189 localized SCCs, 90 metastatic SCCs). Several mutations were correlated with demographic characteristics (TP53, MLL4, BRCA2, COL4A1). TP53, TERT, SPEN, MLL3, and NOTCH2 mutations were significantly more likely to be found in metastatic versus localized SCCs even after the Bonferroni correction for multiple comparisons. Silent mutations were found more in localized SCCs than metastatic SCCs, and nonsense mutations were found more in metastatic SCCs than localized SCCs (p = 0.0003 and p = 0.04, respectively). Additional mutations were identified that have not yet been explored in SCC including AHNAK2, LRP1B, TRIO, MDN1, COL4A2, SVIL, VPS13C, DST, DMD, and DYSF. Overall, novel mutations were identified and differences between mutation patterns in localized and metastatic SCCs were found. These findings may have clinical applications.

Sequencing of Cutaneous Squamous Cell Carcinoma Primary Tumors and Patient-Matched Metastases Reveals ALK as a Potential Driver in Metastases and Low Mutational Concordance in Immunocompromised Patients.

Cutaneous squamous cell carcinoma is a common skin cancer that is responsible for 1,000,000 cases and up to 9,000 deaths annually in the United States. Metastases occur in 2-5% of patients and are responsible for significant morbidity and mortality. The objective of this study is to perform targeted next-generation sequencing on a cohort of squamous cell carcinoma primary tumors and patient-matched lymph node metastases. An oncology 76-gene panel was run from formalin-fixed paraffin-embedded samples of patient-matched primary squamous cell carcinomas (10) and resultant metastases (10). ALK was discovered to be a driver mutation in metastases using two different algorithms, oncoCLUSTand dNdScv. Mutational concordance between primary tumors and metastases was notably lower in immunosuppressed patients, especially among pathogenic mutations (41.7% vs. 83.3%, P = 0.01). Sequencing of matched squamous cell carcinoma primary tumors and lymph node metastases identified genes and pathways that may have clinical importance, most notably ALK as a potential driver mutation of metastasis. Sequencing of both primary tumors and metastases may improve the efficacy of targeted therapies.

Cutaneous Squamous Cell Carcinoma Arising in Immunosuppressed Patients: A Systematic Review of Tumor Profiling Studies.

As solid organ transplantation becomes more prevalent, more individuals are living as members of the immunosuppressed population with an elevated risk for cutaneous squamous cell carcinoma (cSCC). Although great progress has been made in understanding the pathogenesis of cSCC in general, little is known about the drivers of tumorigenesis in immunosuppressed patients and organ-transplant recipients, specifically. This systematic review sought to synthesize information regarding the genetic and epigenetic alterations as well as changes in protein and mRNA expression that place this growing population at risk for cSCC, influence treatment response, and promote tumor aggressiveness. This review will provide investigators with a framework to identify future areas of investigation and clinicians with additional insight into how to best manage these patients.

Targeted next-generation sequencing of matched localized and metastatic primary high-risk SCCs identifies driver and co-occurring mutations and novel therapeutic targets.

BACKGROUND: Cutaneous squamous cell carcinoma (SCC) is the second most common type of skin cancer and is responsible for over one million cases annually. While only 3-5 % of SCCs metastasize, those that do are associated with significant morbidity and mortality. Using gene mutations to help predict metastasis and select therapeutics is still being explored. OBJECTIVE: To present novel data from targeted sequencing of 20 case-matched localized and metastatic high-risk SCCs. METHODS: A cancer-associated gene panel of 76 genes was run from formalin-fixed paraffin-embedded samples of 20 case-matched localized (10) and metastatic (10) high-risk SCCs (Vela Diagnostics). RESULTS: Using spatial clustering analysis, primary driver mutations were identified asEGFR in localized SCC and CDH1 in metastatic SCC. ERBB4 and STK11 were found to be significant co-occurring mutations in localized SCC. Pathway analyses showed the RTK/RAS, TP53, TGF-b, NOTCH1, PI3K, and cell cycle pathways to be highly relevant in all high-risk SCCs with the Wnt pathway enhanced in metastatic SCC only. CONCLUSIONS: This study compared gene mutations between localized and metastatic SCC with the intent of identifying key differences and new potential targeted treatment options. To our knowledge, the co-occurrence ofERBB4 and STK11 mutations has not been previously reported. Targeted inhibition of CDH1 and the Wnt pathway should be further explored in metastatic SCC.

Treatment with the selective serotonin reuptake inhibitor, fluoxetine, attenuates the fish hypoxia response.

The selective serotonin reuptake inhibitor (SSRI) fluoxetine (FLX), the active ingredient of the antidepressant drug Prozac, inhibits reuptake of the neurotransmitter, serotonin (5-HT; 5-hydroxytryptamine), into cells by the 5-HT transporter (SERT). Given the role of 5-HT in oxygen detection and the cardiovascular and ventilatory responses of fish to hypoxia, we hypothesized that treatment of the Gulf toadfish, Opsanus beta, with FLX would interfere with their response to hypoxia. Toadfish treated intra-arterially with 3.4 µg.g(-1) FLX under normoxic conditions displayed a transient tachycardia and a biphasic caudal arterial blood pressure (PCA) response that are in direct conflict with the typical hypoxia response. Fish injected intraperitoneally with FLX under normoxia had resting cardiovascular and ventilatory parameters similar to controls. Upon exposure to hypoxia, control toadfish exhibit a significant bradycardia, reduction in PCA and an increase in ventilatory amplitude (VAMP) without any changes in ventilatory frequency (fV). Fish treated IP with 10 µg.g(-1) FLX showed an interference in the cardiovascular and ventilatory response to hypoxia. Interestingly, when treated with 25 µg.g(-1) FLX, the bradycardia and VAMP response to hypoxia were similar to control fish while the PCA response to hypoxia was further inhibited. These results suggest that SERT inhibition by FLX may hinder survival in hypoxia.