Regional bias of tumor suppressor gene mutations of STARD8 and WNK2 in colon cancers.

StAR-related lipid transfer domain protein 8 (STARD8), encoding a Rho-GTPase-activating protein, and WNK2, encoding a serine/threonine kinase are candidate tumor suppressor genes (TSGs) in human cancers. Inactivation of these genes that would promote cancer pathogenesis is largely unknown in colon cancer (CC). Our study addressed to address whether STARD8 and WNK2 genes are mutated in CC. STARD8 and WNK2 genes possess mononucleotide repeats in their exons, which could be the targets for frameshift mutations in cancers with high microsatellite instability (MSI-H). By single-strand conformation polymorphism (SSCP) analysis, we analyzed the repeated sequences in 140 CCs (95 CCs with MSI-H and 45 CCs with stable MSI (MSS)). By DNA sequencing, we found that five MSI-H CCs (5/95: 5.3%) harbored the frameshift mutations, whereas MSS CCs (0/45) did not. In addition, we detected regional heterogeneous frameshift mutations of these genes in four (25%) of 16 MSI-H CCs. In immunohistochemistry for WNK2, WNK2 expression in the MSI-H CCs was significantly lower than that in the MSS CCs. Our results for the mutation and expression indicate that STARD8 and WNK2 genes are altered at various levels (frameshift mutation, expression, and regional heterogeneity) in MSI-H CCs, which might play a role in the pathogenesis by inactivating their TSG functions.

Learning curve analysis using the cumulative summation method for totally extraperitoneal repair of the inguinal hernia.

PURPOSE: The totally extraperitoneal repair (TEP) technique has been widely performed, and compared with open surgery, TEP results in less postoperative pain and similar surgical outcomes in the treatment of inguinal hernias. However, TEP has a longer learning curve than does conventional surgery. METHODS: The data for patients who underwent TEP for inguinal hernias by a single surgeon between April 2017 and July 2019 were analyzed retrospectively. The cumulative summation (CUSUM) method and the following two variables were used to analyze the learning curve: (1) the operation event (OE), including intraoperative complications and conversion to open surgery; and (2) the operation score (OS), as calculated by the operation time, patient body mass index, and disease characteristics. RESULTS: The CUSUM chart showed three phases for both the OE and OS. The former reached a first inflection point after the 85th case and decreased after the 200th case, and the latter reached a plateau after the 101st case and decreased after the 203rd case. The operation time was longer in phases 1 and 2 than in phase 3 (64.2 min versus 47.9 min versus 31.1 min; p < 0.001), and the OS was lower in phase 3 than in the other phases (71.9 points versus 106.4 points versus 142.7 points; p < 0.001). Ten cases of intraoperative complications were observed, all in the first and second phases (p = 0.011). CONCLUSION: At least approximately 100 cases are required for the initial learning period, and an additional 103 cases are required for the accumulation of additional experience. Surgical competency can be gained after 203 TEPs are performed.

The role of retinoid-related orphan receptor-α in cigarette smoke-induced autophagic response.

BACKGROUND: Retinoid-related orphan receptor-α (RORα) and autophagy dysregulation are involved in the pathophysiology of chronic obstructive pulmonary disease (COPD), but little is known regarding their association. We investigated the role of RORα in COPD-related autophagy. METHODS: The lung tissues and cells from a mouse model were analyzed for autophagy markers by using western blot analysis and transmission electron microscopy. RESULTS: Cigarette smoke increased the LC3-II level and decreased the p62 level in whole lung homogenates of a chronic cigarette smoking mouse model. Although cigarette smoke did not affect the levels of p62 in Staggerer mutant mice (RORαsg/sg), the baseline expression levels of p62 were significantly higher than those in wild type (WT) mice. Autophagy was induced by cigarette smoke extract (CSE) in Beas-2B cells and in primary fibroblasts from WT mice. In contrast, fibroblasts from RORαsg/sg mice failed to show CSE-induced autophagy and exhibited fewer autophagosomes, lower LC3-II levels, and higher p62 levels than fibroblasts from WT mice. Damage-regulated autophagy modulator (DRAM), a p53-induced modulator of autophagy, was expressed at significantly lower levels in the fibroblasts from RORαsg/sg mice than in those from WT mice. DRAM knockdown using siRNA in Beas-2B cells inhibited CSE-induced autophagy and cell death. Furthermore, RORα co-immunoprecipitated with p53 and the interaction increased p53 reporter gene activity. CONCLUSIONS: Our findings suggest that RORα promotes autophagy and contributes to COPD pathogenesis via regulation of the RORα-p53-DRAM pathway.

ROP-ESAT6-CFP10 as Tuberculosis-Specific Antigen in Interferon Gamma Release Assay.

OBJECTIVE: The ROP-ESAT6-CFP10 antigen (Changzhou Niujin Shisong Biotech [CBI], China) was recently developed using recombinant overlapping peptide (ROP) technology. We used ROP-ESAT6-CFP10 as a tuberculosis (TB)-specific antigen and compared it with existing interferon-gamma release assays (IGRAs). METHODS: Healthy volunteers and patients who were diagnosed with TB within a one-year period were enrolled. Samples were tested with QuantiFERON-TB Gold (QFT; QIAGEN Sciences Inc., USA), T-SPOT.TB (Oxford Immunotec, UK), and ELISpot using ROP-ESAT6-CFP10 as a TB-specific antigen (ROP-TB). For ROP-TB, two concentrations (1 µg and 5 µg) of ROP-ESAT6-CFP10 were used as TB-specific antigens. Agreement between assays was evaluated. RESULTS: A total of 35 TB patients and 20 healthy volunteers were evaluated. Agreement between T-SPOT.TB and ROP-TB 1 µg, QFT and ROP-TB 1 µg, and ROP-TB 1 µg and ROP-TB 5 µg/mL were 79.1% (kappa=0.483), 76.7% (kappa=0.557), and 95.3% (kappa=0.894), respectively. The median number of spots between the T-SPOT.TB and ROP-TB assays in the TB patients had no significant difference. CONCLUSIONS: ELISpot using newly developed ROP-ESAT6-CFP10 showed good agreement with T-SPOT.TB and QFT. Since ROP technology can lower the manufacturing cost, ROP-ESAT6-CFP10 might work as a good source of TB-specific antigen for IGRAs.

Expression and Mutation Alterations of ZMYM4 Gene in Gastric and Colonic Cancers.

ZMYM4 is a zinc finger protein, whose cancer-related functions are partially known (cell shape maintenance and cell death). In this study, we analyzed 4 sites of mononucleotide repeats in the coding sequence of ZMYM4 in gastric (GC) and colonic cancers (CC). Seven of the 32 high microsatellite instability (MSI-H) GCs (21.9%) and 23 of 113 MSI-H CCs (20.4%) harbored ZMYM4 frameshift mutations with no significant difference between the 2 organs (P>0.05). There was no ZMYM4 frameshift mutations in microsatellite-stable GCs and CCs. We also identified that 6 of 16 MSI-H CCs (37.5%) exhibited intratumoral heterogeneity of the ZMYM4 frameshift mutations. In both GC and CC with MSI-H, ZMYM4 expression in ZMYM4-mutated cases was significantly lower than that in ZMYM4-nonmutated cases. Our study indicates that ZMYM4 is altered at multiple levels (frameshift mutation, mutational intratumoral heterogeneity, and loss of expression), suggesting their relations with MSI-H GC and CC.

Tight Junction-Related CLDN5 and CLDN6 Genes, and Gap Junction-Related GJB6 and GJB7 Genes Are Somatically Mutated in Gastric and Colorectal Cancers.

Tight junction and gap junction are major cell junctions that play important roles in cellular communication and structural integrity. Alterations of these junctions are known to be involved in cancer pathogenesis. Claudins and connexins are major tight and gap junction proteins, but genetic alterations of these genes have not been reported in gastric (GC) and colorectal cancers (CRC) with microsatellite instability (MSI). Claudin genes CLDN5 and CKDN6, and connexin genes GJB6 and GJB7 have mononucleotide repeats in the coding sequences that might be mutation targets in the cancers with MSI. We analyzed 79 GCs and 145 CRCs, and found CLDN5 frameshift mutations in 3 (3%) CRCs and 1 (2.9%) GC, CLDN6 frameshift mutations in 6 (6%) CRCs, GJB6 frameshift mutations in 5 (5%) CRCs and GJB7 frameshift mutation in one CRC (1%) with high MSI (MSI-H). We also analyzed intratumoral heterogeneity (ITH) of the frameshift mutations in 16 CRCs and found that CLDN6 and GJB6 frameshift mutations showed regional ITH in 2 (12.5%) and 2 (12.5%) cases, respectively. Our results show that CLDN5, CLDN6, GJB6 and GJB7 genes harbor not only frameshift mutations but also mutational ITH, which together may be features of GC and CRC with MSI-H. Based on the roles of cellular junctions in cancers, frameshift mutations of tight junction and gap junction genes might contribute to tumorigenesis by altering their functions in GC and CRC.

Somatic mutation and loss of expression of a candidate tumor suppressor gene TET3 in gastric and colorectal cancers.

Ten-eleven translocation 3 (TET3) is responsible for the DNA methylation and plays an important role in regulation of the gene expression. TET2, another TET, is frequently mutated in hematologic malignancies and considered a driver gene for leukemogenesis. TET3 mRNA downregulation has been identified in many solid cancers, suggesting its role as a candidate tumor suppressor gene (TSG). However, somatic inactivating mutation and protein expression in solid cancers are largely unknown. The aim of our study was to find whether TET3 gene was mutated and expressionally altered in gastric (GC) and colorectal cancers (CRC). TET3 gene possesses mononucleotide repeats in the coding sequence that could be mutated in cancers with high microsatellite instability (MSI-H). We analyzed 79 GCs and 124 CRCs, and found that GCs (2.9 %) and CRCs (7.6 %) with MSI-H, but not those with microsatellite stable/low MSI (MSS), harbored frameshift mutations within the repeats. In immunohistochemistry, loss of TET3 expression was identified in 32 % of GCs and 28 % of CRCs. Positive TET3 immunostaining in MSI-H cancers with TET3 frameshift mutation (1/7) was significantly lower than that without TET3 frameshift mutations (75/110). Our data may indicate TET3 harbored not only frameshift mutation but also loss of expression, which together could play a role in tumorigenesis of GC and CRC with MSI-H by inhibiting TSG functions of TET3.

Expression of CD133 is associated with poor prognosis in stage II colorectal carcinoma.

CD133 is currently believed to be one of the best colorectal cancer stem cell markers. This study aimed to evaluate prognostic significance of CD133 expression in colorectal cancer patients.A total of 303 patients with stage I to III colorectal cancer who underwent curative surgical resection from 2003 to 2008 at a single institution were included. CD133 expression was evaluated using immunohistochemical staining, and clinicopathological data were retrospectively reviewed. The patients were dichotomized after scoring CD133 expression (0 to 2+: low CD133 expression vs 3+ to 4+: high CD133 expression) according to the extent of area of CD133 positive tumor cells (<50% vs ≥50%) and pattern of staining (membranous staining of the luminal surface and/or staining of cellular debris in the tumor glands and cytoplasm).The 5-year overall survival (OS) (61.9% vs 80.2%, P = .001) and disease-free survival (64.8% vs 75.8%, P = .026) were poorer in the high CD133 expression group than the low CD133 expression group. In the multivariate analysis for risk factors of OS in the whole population, higher nodal stage (N2 compared to N0: hazard ratio [HR] 3.141; 95% confidence interval [CI] 1.718-5.744, P < .001), perineural invasion (HR 2.262; 95% CI 1.347-3.798, P = .002) and high CD133 expression (HR 1.929; 95% CI 1.221-3.048, P = .005) were independent poor prognostic factors of OS. Subgroup analyses according to each TNM stage revealed that CD133 expression was associated with OS only within the stage II patients (HR 3.167 95% CI 1.221-8.216, P = .018). Furthermore, the stage II patients demonstrating the high CD133 expression showed survival benefit of adjuvant chemotherapy, regardless of high-risk feature positivity (HR 0.201 95% CI 0.054-0.750, P = .017).High CD133 expression is correlated with poor prognosis in colorectal cancer patients after radical resection. The CD133 expression may serve as a more potent and informative biomarker for prognosis than conventional high-risk features in the stage II colorectal cancer patients.

Clonal Structures of Regionally Synchronous Gastric Adenomas and Carcinomas.

Purpose: Gastric adenoma (GA) is a premalignant lesion that precedes intestinal-type gastric carcinoma (GC). However, genetic progression mechanisms from GA to GC have not been clarified.Experimental Design: We performed whole-exome sequencing-based mutational analyses for 15 synchronous pairs of attached GAs and GCs.Results: There was no significant difference in the number of driver mutations or copy-number alterations between GAs and GCs. Well-known mutations of TP53, APC, RNF43, and RPL22 were recurrently detected in synchronous GA/GC pairs. In addition, we discovered novel KDM6A, PREX2, FAT1, KMT2C, GLI3, and RPL22 mutations and hypermutation in GAs, but did not identify recurrent drivers for GA-to-GC progression. Clonal structure analyses revealed that most GA/GC pairs exhibit parallel evolution with early divergence rather than stepwise evolution during GA-to-GC progression. Of note, three cases were identified as clonally nonrelated GA/GC pairs despite the lack of histologic differences. We found differences in dominant mutational signatures 1, 6, 15, and 17 in GA/GC trunks, GA branches, and GC branches. Compared with our previous work on synchronous colon adenoma/carcinoma genome structures, where most drivers were in the trunk with parallel evolution, synchronous GA/GC genomes showed a different model of parallel evolution, with many drivers in the branches.Conclusions: The preferred sequence of mutational events during GA-to-GC progression might be more context-dependent than colon adenoma progression. Our results show that nonclonal synchronous GA/GC is common and that GA genomes have already acquired distinct genomic alterations, suggesting caution in the diagnosis of synchronous GA and GC, especially in residual or recurrent cases. Clin Cancer Res; 24(19); 4715-25. ©2018 AACR.

Whole-exome sequencing identified mutational profiles of high-grade colon adenomas.

Although gene-to-gene analyses identified genetic alterations such as APC, KRAS and TP53 mutations in colon adenomas, it is largely unknown whether there are any others in them. Mutational profiling of high-grade colon adenoma (HGCA) that just precedes colon carcinoma might identify not only novel adenoma-specific genes but also critical genes for its progression to carcinoma. For this, we performed whole-exome sequencing (WES) of 12 HGCAs and identified 11 non-hypermutated and one hypermutated (POLE-mutated) cases. We identified 22 genes including APC, KRAS, TP53, GNAS, NRAS, SMAD4, ARID2, and PIK3CA with non-silent mutations in the cancer Census Genes. Bi-allelic and mono-allelic APC alterations were found in nine and one HGCAs, respectively, while the other two harbored wild-type APC. Five HGCAs harbored either mono-allelic (four HGCAs) or bi-allelic (one HGCA) SMAD4 mutation or 18q loss that had been known as early carcinoma-specific changes. We identified MTOR, ACVR1B, GNAQ, ATM, CNOT1, EP300, ARID2, RET and MAP2K4 mutations for the first time in colon adenomas. Our WES data is largely matched with the earlier 'adenoma-carcinoma model' (APC, KRAS, NRAS and GNAS mutations), but there are newly identified SMAD4, MTOR, ACVR1B, GNAQ, ATM, CNOT1, EP300, ARID2, RET and MAP2K4 mutations in this study. Our findings provide resource for understanding colon premalignant lesions and for identifying genomic clues for differential diagnosis and therapy options for colon adenomas and carcinomas.

Frameshift Mutations in the Mononucleotide Repeats of TAF1 and TAF1L Genes in Gastric and Colorectal Cancers with Regional Heterogeneity.

Initiation of transcription by RNA polymerase II requires TATA-box-binding protein (TBP)-associated factors (TAFs). TAF1 is a major scaffold by which TBP and TAFs interact in the basal transcription factor. TAF1L is a TAF1 homologue with 95 % amino acid identity with TAF1. TAF1 is involved in apoptosis induction and cell cycle regulation, but roles of TAF1 and TAF1L in tumorigenesis remain unknown. The aim of this study was to explore whether TAF1 and TAF1L genes were mutated in gastric (GC) and colorectal cancers (CRC). In a public database, we found that TAF1 and TAF1L genes had mononucleotide repeats in the coding sequences that might be mutation targets in the cancers with microsatellite instability (MSI). We analyzed the mutations in 79 GC and 124 CRC by single-strand conformation polymorphism analysis and DNA sequencing. In the present study, we found TAF1 frameshift mutations (3.8 % of CRC with MSI-H) and TAF1L frameshift mutations (2.9 % of GC and 3.8 % of CRC with MSI-H). These mutations were not found in stable MSI/low MSI (MSS/MSI-L) (0/90). In addition, we analyzed intratumoral heterogeneity (ITH) of TAF1 and TAF1L frameshift mutations in 16 CRC and found that two and one CRC harbored regional ITH of TAF1 and TAF1L frameshift mutations, respectively. Our data indicate that TAF1 and TAF1L genes harbored not only somatic mutations but also mutational ITH, which together might play a role in tumorigenesis of GC and CRC with MSI-H. Our results also suggest that ultra-regional mutation analysis is required for a comprehensive evaluation of mutation status in these tumors.