INTRODUCTION

Gastric cancer (GC) is a common malignancy worldwide; although the incidence and mortality of GC have declined globally over the past 50 years, it remains the fifth most frequently diagnosed cancer and the third leading cause of cancer-related death[1]. It is estimated that GC is the second most common cancer in China and ranks third in cancer-related deaths[2]. The mechanisms underlying GC metastasis and adverse prognostic factors are still unclear, mainly due to the high heterogeneity of tumours[3].Moreover, the efficacy of traditional methods, such as surgery, radiotherapy, and chemotherapy, is limited and the majority of GC patients are already at an advanced stage when diagnosed[4]. The molecular characteristics of mutated genes can provide guidance for potential therapeutic biomarkers and have significant clinical implications for GC diagnosis and treatment[5].

11.Here I cannot stay: Ashliman points out that the tale obviously require that the abused woman give up all the privileges of her father s position when she makes her escape .Return to place in story.

The classic pathological classification of GC is mainly based on gross and histological morphology as well as cell biological characteristics, including the Borrmann, Lauren, and WHO classifications. With the development of molecular diagnostic techniques, especially next-generation sequencing (NGS), The Cancer Genome Atlas (TCGA) and the Asian Cancer Research Group (ACRG) have unprecedented insight into the molecular characteristics of GC[6,7]. Targeted therapy or immunotherapy needs to be combined with the molecular characteristics of GC. In clinical practice, both the National Comprehensive Cancer Network (NCCN) guidelines and Chinese Society of Clinical Oncology (CSCO)guidelines have affirmed the value and significance of NGS in the treatment of GC, and it has been increasingly used in clinical practice for the diagnosis of cancers, such as breast cancer and non-smallcell lung cancer[8,9]. As an essential complement to pathological diagnoses, NGS is an increasingly accessible choice for clinical doctors and researchers[10]. NGS requires only small amounts of tissue,such as fresh tissue or formalin-fixed paraffin-embedded (FFPE) tumour tissue specimens. This method can rapidly identify specific changes in DNA sequences and detect multiple targets simultaneously.NGS technology can facilitate more accurate targeted therapy and immunotherapy and improve its therapeutic effect in GC[11-13]. However, the clinical applications of molecular classification are limited because it is difficult to significantly improve therapeutic effects and select individualized treatments in GC.

“Now I must hasten away to warmer countries,” said the Snow Queen. “I will go and look into the black craters6 of the tops of the burning mountains, Etna and Vesuvius, as they are called,—I shall make them look white, which will be good for them, and for the lemons and the grapes.” And away flew the Snow Queen, leaving little Kay quite alone in the great hall which was so many miles in length; so he sat and looked at his pieces of ice, and was thinking so deeply, and sat so still, that any one might have supposed he was frozen.

We explored a panel with 24 genes with a high frequency of mutation related to GC in the present study. We used NGS technology combined with bioinformatics methods to quickly identify differences in mutated genes and obtained valuable gene expression information. FFPE tumour tissue specimens were obtained from 64 GC patients. We analysed the correlation between TP53 gene mutations and their clinicopathological features to develop a detailed solution for important mutation sites and recommend mutation-based treatment options. In addition, we discovered promising target sites, which can provide insights into drug development in follow-up clinical research.

MATERIALS AND METHODS

Patients and tissue samples

We recruited 64 patients with GC from the First Affiliated Hospital of Bengbu Medical College. This research was approved by the First Affiliated Hospital of Bengbu Medical College and performed in accordance with the Declaration of Helsinki. All patients provided signed informed consent for voluntary participation in the study. 64 patients had not received chemotherapy or radiotherapy before sample collection. FFPE tumour tissue specimens from GC patients who received gastrectomy or gastroendoscopic surgery were obtained from the pathology department. We used germline DNA from FFPE paracancerous tissues as a reference to detect somatic variation. We utilized a high-throughput sequencing platform and domain capture technology of the target area to test a novel 24-gene panel(Table 1).

We used R software (version 4.0.5), SPSS 22.0 (SPSS Inc., Chicago, IL, United States) and GraphPad

DNA extraction and quality control

Genomic DNA (gDNA) from FFPE cancer and paracancerous tissues was extracted using a QIAGEN tissue kit (QIAGEN GmbH, Hilden, Germany) according to the manufacturer's specifications. The DNA concentration was analysed using a Qubit2.0 Fluorometer (Thermo Fisher Scientific, Waltham, MA,United States), and DNA integration was evaluated using an Agilent Bioanalyzer 2100 instrument(Agilent Technologies, Santa Clara, CA, United States). We used multimembrane polymerase chain reaction (PCR) to assess FFPE DNA integrity.

A novel panel of 24 gastric cancer-related genes with a high frequency of mutation can be used to quickly detect mutated genes based on high-throughput sequencing. Mutant gene information,including insertions, deletions, copy number changes, and structural variations, can be efficiently captured. The observed mutations can provide potential targets for the clinical treatment of gastric cancer.

Library preparation and hybridization capture

The novel 24-gene panel consisted of introns, promoters, and fusion regions. 24 mutated genes were recorded in the Catalogue of Somatic Mutations in Cancer (COSMIC) database (http://cancer.sanger.ac.uk/cosmic). The library was prepared using an Ion Ampliseq Library kit 2.0 (Life Technologies) according to the manufacturer’s specifications. We submitted 300 ng of gDNA for each tissue from each sample using an ultrasonicator (Covaris, Woburn, MA, United States). Next, small fragments of the 200 bp main band were used to perform end repair, a-tailing, and adapter ligation with the KAPA LTP Library Preparation kit according to the manufacturer’s instructions. Fragmented DNA was converted to an NGS library. After subsequent PCR amplification, the cDNA was quality-controlled and purified. The pre-library was mixed according to the proportion of the data volume. A hybridization system was configured, and magnetic beads were captured.

You want to get rid of your fish’s tail, and to have two supports instead of it, like human beings on earth, so that the young prince may fall in love with you, and that you may have an immortal soul

：“，，。I didn`t feel that I had anyone to say those words to, and besides,，，who were you to tell me to do something that personal8?？？“But as I began driving home my conscience2 started talking to me

Clustering and sequencing

The library was diluted to a concentration of 100 pM using the Ion Library Equalizer kit (Life Technologies, United States) before template preparation. Enriched, templated ion sphere particles were obtained using a DA8600 Ion Proton sequencer (DAANGENE, China) equipped with an Ion P1 chip(Life Technologies, United States).

Bioinformatics analysis

Raw NGS data analysis, including base calling, quality control, and sequence alignment to the hg19 human reference genome, was performed with Ion Reporter software (Life Technologies, Carlsbad, CA,United States). All variants were visually confirmed using the Integrative Genomics viewer (IGV).Mutations were named according to the Single Nucleotide Polymorphism database (dbSNP)(http://www.ncbi.nlm.nih.gov/snp/) and COSMIC database. The mutation population frequencies were annotated by the NHLBI Exome Sequencing Project (http://evs.gs.washington.edu/EVS/).

You are a true successor of Thorwalsden, she said to Alfred; andit seemed to him as if, in this instance, mamma had said a cleverthing. Kaela was silent; but her eyes shone, her lips smiled, everymovement was graceful,- in fact, she was beautiful; that cannot berepeated too often. Alfred decided24 to take a bust25 of Kaela as wellas of her mother. They sat to him accordingly, and saw how hemoulded and formed the soft clay with his fingers.

A “stomach adenocarcinoma” study (TCGA, Nature 2014) containing 295 samples is available in the cBioPortal database. By choosing mRNA expressionscores relative to diploid samples (RNA Seq V2 RSEM) within two SDs from the mean (a threshold of ± 2.0), the complete data of 258 patients were downloaded from the cBioPortal database (http://www.cbioportal.org). The variant sites of mutated genes were indicated by reference to the ClinVar database (http://www.ncbi.nlm.nih.gov/clinvar).Mutation-based targeted drug recommendation information was identified using the OncoKB database(https://github.com/oncokb). Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes(KEGG) pathway analyses were performed to explore the related enrichments and pathways using Cluster Profiler in R software.

Statistical analysis

We performed an enrichment analysis to identify the biological function of the 24 differentially mutated genes associated with GC. The GO enrichment analysis included biological processes, cellular components, and molecular functions. The related biological processes primarily consisted of protein kinase B signalling, epithelial cell proliferation, and protein kinase B signalling regulation; the cellular components included the chromosome region and cytoplasmic side of the plasma membrane; and theenriched molecular functions consisted of transmembrane receptor protein kinase activity. Thus, the GO enrichment analysis demonstrated that the biological function of these mutations might be related to the tumour interaction with transmembrane receptor protein kinase activity (Figure 6A). The KEGG pathway analysis indicated that these genes were enriched in tumour-related signalling pathways,including the PI3K?Akt, MAPK, and Ras signalling pathways and platinum drug resistance (Figure 6B).In summary, these results indicated that the function of these mutated genes was highly associated with the occurrence of GC.

RESULTS

Clinical and histopathologic features of patients

First, we analysed 64 Chinese GC patients. The median age was 64 years. Of the patients, 78.1% were male and the primary clinical stage was II/III (79.7%). Histologically, intestinal GC accounted for 62.5%,and diffuse GC accounted for 34.4%. Subsequently, 295 patients were selected from the cBioPortal database of varying races, including Caucasian (58.3%), Asian (26.1%), and other races; 258 patients were analyzed as a control group. The majority of patients in this group were also male (60.5%). The primary clinical stage was II/III (75.2%), and the major histology was intestinal GC (65.5%). All patients’clinical data are shown in Table 2.

Detection and analysis of somatic nucleotide variations in the custom panel and cBioPortal database

24 genes with high frequencies of mutation were detected by NGS. Our study found that the top 16 frequently mutated genes were TP53 (58%), ERBB2 (28%), BRCA2 (23%), NF1 (19%), PIK3CA (14%),ATR (14%), MSH2 (12%), FBXW7 (12%), BMPR 1A (12%), ERBB3 (11%), ATM (9%), FGFR2 (8%), MET(8%), PTEN (6%), CHD4 (6%), and KRAS (5%) (Figure 1). Most gene mutations were missense mutations. We then checked the mutation frequency of 24 common genes in 258 GC patients using the cBioPortal database. The top 16 most frequently mutated genes were TP53 (48%), CDKN2A (45%),PIK3CA (31%), ERBB2 (24%), BRCA2 (20%), KRAS (18%), ERBB3 (18%), NF1 (17%), PTEN (16%), CHD4(16%), ATM (14%), ATR (14%), FBXW7 (14%), MTOR (13%), FGFR2 (13%), and AR (11%) (Figure 2). We found a higher mutation frequency of TP53, ERBB2, BRCA2, NF1, and PIK3CA in our data and in the cBioPortal database. KRAS and CDKN2A had lower frequencies of mutations in our custom panel but higher frequencies in the cBioPortal database. In contrast, BMPR1A and MSH2 had higher mutations in our custom panel than in the cBioPortal database.

We discovered that TP53 mutations were the highest frequency in both our data and the cBioPortal database. We then investigated the relationship between TP53 mutations and clinicopathological features. Although an association was not observed between clinicopathological features and TP53 mutations (> 0.05) in our custom panel, somatic TP53 mutations were negatively correlated with distant metastases(= 0.040), and TP53 mutations were also observed less frequently in diffuse GC(=0.017) in the cBioPortal database (Table 3). The TP53 mutations were mainly missense mutations,fragment deletions, and insertions, in both our data and the cBioPortal database (Figure 3A-B). We discovered that the most common TP53 mutations were R273H/C/S, R175H/C/G, and R248Q/H in the cBioPortal database (Figure 3C). These mutation hotspots were also detected in our cohort. TP53 mutation sites are recorded as pathogenic mutations in Li-Fraumeni syndrome (LFS) and hereditary cancer predisposition in the ClinVar database.

This study detected ERBB2 mutations in 18 samples. Four samples with ERBB2 point mutations also had concurrent ERBB2 amplification, and two patients had concurrent amplification with ERBB3. ERBB2 was mainly mutated in this study but mainly amplified in the cBioPortal database (Figure 4A-B). The most common ERBB2 mutation occurred at S310F in the cBioPortal database (Figure 4C), although a mutation at S310F was not detected in our study. However, four patients with the p.V842I mutation were found in our cohort. The V842I mutation site is a potential pathogenic mutation in stomach adenocarcinoma according to the ClinVar database.

FGFR2 is a member of the fibroblast growth factor receptor (FGFR) family and is located at 10q26.Our study found that approximately 8% of patients had FGFR2 mutations. Prior research has indicated that approximately 5%-10% of GC patients show FGFR2 amplification, which is associated with a poor prognosis[32]. The FIGHT study demonstrated that bemarituzumab combined with chemotherapy significantly improved progression-free survival and overall survival in fibroblast growth factor receptor 2b-positive (FGFR2b+) advanced GC[33]. Research has shown that the CDK4/6 inhibitor PD-0332991 could be a promising therapeutic agent for those with CDKN2A mutations, which occur at high frequency in GC[34].

Functional enrichment analysis of the mutated genes by GO and KEGG analysis

Prism 9 (GraphPad Software Inc., La Jolla, CA, United States) for statistical analyses. Chi-square tests were employed to analyse the relationship between TP53 mutations and clinicopathological characteristics. FDR < 0.05 was used to evaluate the significance of GO terms and KEGG pathways. Differences at< 0.05 were considered statistically significant.

Clinical indications for targeted therapy

To evaluate the clinical value and predict the response to targeted therapy in these gene mutations, we searched for targeted drugs using the OncoKB database (https://github.com/oncokb). The OncoKB database, a comprehensive and precise oncology database, can classify mutated genes and provide clinical evidence levels. There are four OncoKB therapeutic levels of evidence: level 1, FDA-approved drugs; level 2, standard care; level 3, clinical evidence; and level 4, biological evidence. We discovered that many gene mutations in our data were recognized as standard care biomarkers corresponding to FDA-approved drugs (Table 4). Ten patients showed ERBB2 amplification in our data; these patients would apparently benefit from FDA-approved ERBB2 inhibitors, including trastuzumab and pertuzumab. For patients with an ERBB2 mutation at V842I, which is level 3B in breast cancer, neratinib can be used. Alpelisib plus fulvestrant targets the PIK3CA alteration at the C420R, E542, E545, Q546,and H1047 sites. BRCA2 alteration is classified as level 3B in peritoneal serous carcinoma and breastcancer, and it responds to olaparib and talazoparib. The KRAS mutation at G12C is considered level 3B and represents a predictive target for adagrasib and sotorasib in non-small-cell lung cancer. The NF1,FGFR2, PTEN, MET, KRAS, KIT, MTOR, CDKN2A, and PDGFRA mutations are currently level 4 mutations. Large clinical studies are needed to explore the efficacy of these targets in GC. The results can provide clinical actionability for targeted therapy.

Distribution of microsatellite instability in gastric cancer

Microsatellite instability (MSI) is a biomarker of sensitivity to immune checkpoint inhibitors.Microsatellites are short tandem repeats throughout the human genome. Tumour tissue has altered microsatellite length due to the insertion or deletion of repeated units; this tissue promotes the appearance of new microsatellite alleles compared to normal tissue. We obtained the results of MSI testing and divided MSI into three levels. MSI = 0 was defined as microsatellite stability (MSS); 0 < MSI< 0.3 was defined as microsatellite instability-low (MSI-L); and MSI ≥ 0.3 was defined as microsatellite instability high (MSI-H).

MSS was the primary type in the present study, accounting for 51.6% of patients. The percent of MSIL was 35.9%, and the percent of MSI-H was 12.5% (Figure 7A). In the cBioPortal database, MSS was also the dominant type. However, the proportion of MSI-H was higher than that observed in our data(Figure 7B). The mismatch repair (MMR) system repairs defects during DNA replication. MSI can thus result from germline mutations in certain MMR genes. MSH2 is a DNA mismatch repair gene that is associated with Lynch syndrome; we found MSH2 mutations in nine patients. We found the T8M mutation in four patients. This mutation is recorded as a pathogenic mutation in Lynch syndrome and hereditary cancer predisposition according to the ClinVar database. Overall, these results suggest that MSI plays a significant role in the heterogeneity of GC and the selection of treatment options.

After a time the wolf, who had likewise fallen on the Prince s neck, advised them to continue their journey, and once more the Prince and his lovely bride mounted on the faithful beast s back

DISCUSSION

NGS is a robust technology platform in the field of oncology that can help doctors accurately and thoroughly understand the gene mutation status of patients in a short period of time and thereby assist in guiding selection of therapeutic strategies[14]. In this study, 24 mutated genes were identified as GCrelated genes with a high frequency of mutation; they can be used to provide patients with personalized and accurate treatment. Our results showed that somatic nucleotide variations were detected in all 64 patients. Thus, our study identified an efficient custom panel of 24 mutant genes that can quickly provide common drug targets with a relatively low detection cost.

Our study found a higher mutation frequency of TP53, ERBB2, BRCA2, NF1, and PIK3CA in GC.TP53 is the most common gene mutation associated with GC, which is consistent with previously reported results[15]. TP53 is closely associated with biological processes, including the effects of the cell cycle, DNA repair, energy metabolism, and antioxidant defence[16,17]. Our study discovered TP53 mutation hotspots, including R175, R248, and R273. A related clinical study also confirmed that TP53 point mutations in tumours mainly occurred at the same conserved sites. Recent research indicated that GC patients with these hotspot mutations had poor prognoses[18]. A study demonstrated that the prodrug APR-246 could represent a new cancer treatment strategy for mutant p53 because it can promote tumour cell death[19]. Lee.found that adavosertib (WEE1 inhibitor) combined with paclitaxel showed high tumour reduction in GC patients with TP53 mutations[20].

ERBB2 hotspot mutations are found in the extracellular domain (ECD; primarily S310F) in the public database. However, we identified an ERBB2 mutation at V842I, which is commonly found in colorectal cancer[21].We discovered that 15 patients carried BRCA1/2 mutations. The current study also demonstrated that GC or GEJ tumour patients carried BRCA1/2 mutations[22], which may be related to tumorigenesis, including GC development. A molecular analysis of BRCA1/2 mutations clearly revealed distinct categories of tumours[23]. A recent study showed that NF1 has prognostic relevance to clinical outcomes in GC patients[24] and leads to the dysregulation of the RAS/MAPK pathway[25].Our study demonstrated that PIK3CA mutations were highly frequent and occurred at the E542K and H1047R sites. A previous study showed that overexpression of the PIK3CA gene due to H1047R or E542K point mutations can induce gain-of-function activation of the PI3K-AKT-mTOR pathway and cause phenotypic changes in human cancers, such as enhanced proliferation and invasion[26]. These genes could become potential prognostic markers and biomarkers for the treatment of GC patients.

In addition, we found different phenomena in two separate cohorts. In our database, KRAS and CDKN2A had lower mutation frequencies and BMPR1A and MSH2 had higher mutation frequencies than those in the cBioPortal database. This discrepancy may be due to tumour heterogeneity, sample size, and/or patient race. We found three patients with KRAS mutations and two with KRAS amplification. Fu[27] demonstrated that Chinese GC patients with KRAS mutations at the G12V site had shorter OS than patients with wild-type KRAS. BMPR1A and MSH2 are GC susceptibility genes;therefore, this finding has potential implications for screening and managing these gene carriers.

We then explored promising drugs for potential therapeutic targets. ERBB2 is also known as human epidermal growth factor receptor-2 and belongs to the family of epidermal growth factor (EGF) receptor tyrosine kinases[28]. EGF receptor tyrosine kinases can act on downstream MAPKs and the PI3K pathway to promote cancer development. Trastuzumab, combined with chemotherapy and pembrolizumab, has shown promising antitumour activity in patients with advanced GC[29]; therefore, the OncokB database recommends these drugs as level 1. A recent clinical study found synergistic antitumour activity of an Fc-optimized anti-HER2 drug (margetuximab) with an anti-PD-1 checkpoint blocking drug (pembrolizumab)[30]. In addition, several new ERBB2 tyrosine kinase inhibitors have been developed, including tucatinib, poziotinib, and pirotonib[31]. Tyrosine kinase inhibitors (TKIs)directly act on intra cellular protein tyrosine kinases by competitively binding to the tyrosine kinase domain and inhibiting tyrosine kinase phosphorylation. TKIs thus play an important role in personalized therapy of GC.

PIK3CA, a downstream signalling pathway of EGFR and ERBB2, has been frequently identified as a mechanism of drug resistance. A phase I multicentre clinical trial evaluated the safety of the PI3K inhibitor BYL719 in combination with the HSP90 inhibitor AUY922 for treating advanced GC.Currently, the FDA has approved PARP inhibitors for treating ovarian, breast, prostate, and pancreatic cancers that carry BRCA mutations. The detection of embryonic BRCA1/2 mutations may help promote the development of PARP inhibitors in gastroesophageal cancer. We then determined that the BRCA2 mutation was associated with genetic susceptibility for cancer. The BRCA2 mutation at I2490T is likely associated with pathogenic mutations in hereditary breast-ovarian cancer syndrome according to the ClinVar database.

BRCA2 mutations were found in 15 patients in our cohort; 3 mutations were synonymous and 12 were nonsynonymous. The nonsynonymous mutations included missense mutations and frameshift mutations. Two samples had BRCA2 at N1784Kfs*3 in the cBioPortal database (Figure 5A), but we did not find any BRCA2 mutations at N1784Kfs*3 in our panel. NF1 mutations were found in 13 patients in our cohort. NF1 was detected at the I679Dfs*21 location in three samples in the cBioPortal database(Figure 5B), but none of the patients in our study had a mutation at this particular location. The PIK3CA mutation was found in nine patients in our cohort. The mutation hotspots of PIK3CA were E542K,E545K, and H1047R, which was consistent with the cBioPortal database (Figure 5C). Furthermore, we found the E545K mutation in four patients and H1047R in one patient. E545K and H1047R are recorded as likely pathogenic mutations in stomach adenocarcinoma according to the ClinVar database.

Numerous studies have shown that MSI is caused by defects in MMR genes, which are closely related to the occurrence of tumours. MSI has been shown to play an essential role in the development of GC.MSI is a highly mutated phenotype caused by short repeat polymorphisms and single nucleotide substitutions in MMR DNA. The hMSH2 gene is one of the critical proteins in MMR. A clinical study suggested that MSI-H/dMMR-positive tumour patients who received preoperative chemotherapy combined with surgery had a poorer prognosis than patients who underwent surgery alone. This result indicated that identifying the MSI/MMR status might help screen patients with GC who need preoperative chemotherapy[35]. More importantly, MSI-H/dMMR has been recognized as one of the critical biomarkers in immunotherapy for GC[36]. The Keynote-062 study showed that pembrolizumab combined with chemo therapy could prolong the survival of GC patients with MSI-H[37]. The results suggested that immunotherapy should play a significant role in GC.

Our research found that the MSH2 mutation probability was 18.75% in our panel but 2.7% in the cBioPortal database. This difference might be due to the selected population and sample quantity. In addition, it could be related to race. A study reporting clinical risk factors found that male sex, advanced age, MLH1 or MSH2 mutations, and a family history of Lynch syndrome were associated with an increased risk of GC[38]. These findings suggest that an individualized, risk-stratified surveillance approach may be appropriate for individuals carrying Lynch syndrome-associated mutations to reduce GC risk.

Taken together, these findings suggest that this novel panel of 24 genes with high frequencies of mutation might provide new insights for individualized and precise treatment in GC patients.Nevertheless, there are some limitations to our study. First, we only compared our data with that of data from the cBioPortal database; thus, a multi-database analysis is required for further validation.Second, the use of NGS could lead to few clinically meaningful responses. Patients and their doctors may jointly decide to order a gene panel at no additional cost from the public health care system.In addition, the frequently mutated genes need to be further explored to determine their functions and underlying mechanisms. Therefore, large cohorts in multicentre prospective clinical studies are needed to validate these prognostic mutation genes and their frequency to guide clinical targeted treatment.

Later, my editor, when reading of this in my Belfast newspaper column, wrote the following headline: The Day I Played Four Holes in None! Mark, for his part, listened intently and appreciatively to this family history

CONCLUSION

And when she lay dead, the young King remembered what he had promised, and it made him shudder4 to think of lying in her grave alive, but there was no escape

ARTICLE HIGHLIGHTS

Research background

Next-generation sequencing (NGS) technology combined with bioinformatics methods provides quick identification of differences in mutated genes and valuable gene expression information. However, NGS has not been widely used to diagnose and treat gastric cancer in clinical practice.

Towards evening the young man reached the cave where his brothers had met their deaths, and, like them, he thought it would be a good place to sleep in

When the peri opened her eyes she asked in affright: Who are you? Have you come to steal? How did you get here? Be quick! save yourself from this whirlpool of destruction, for the demons and peris

Research motivation

The Cancer Genome Atlas (TCGA) and the Asian Cancer Research Group (ACRG) have provided unprecedented insight into the molecular characteristics of gastric cancer. We constructed a panel of 24 mutant genes to identify promising target sites.

24 genes with a high frequency of mutation were compared using the cBioPortal database. Then, the clinical annotation of important variant mutation sites was evaluated with the ClinVar database. Finally,candidate drugs for targeted therapy and immunotherapy were identified from the OncoKB database.

Research objectives

We used germline DNA from FFPE tumour tissue specimens to explore 24 genes with a high frequency of mutation, including ATR, ATM, AR, BRCA2, BMPR1A, CHD4, CDKN2A, ERBB2, ERBB3, FBXW7,FGFR2, KRAS, KDR, KIT, MET, MSH2, MTOR, NF1, PTEN, PDGFRA, PIK3CA, PTPN11, STK11, and TP53.

Research methods

Then the robber ran back as fast as he could to his captain, and said, Ah, there is a horrible witch sitting in the house, who spat17 on me and scratched my face with her long claws; and by the door stands a man with a knife, who stabbed me in the leg; and in the yard there lies a black monster, who beat me with a wooden club; and above, upon the roof, sits the judge,20 who called out, Bring the rogue18 here to me! so I got away as well as I could.

Research results

TP53, ERBB2, BRCA2, NF1, and PIK3CA had a higher mutation frequency in our data and the cBioPortal database. MSS was the primary type of MSI. BRCA2, PIK3CA, and FGFR2 gene mutations were identified as promising biomarkers in gastric cancer.

Research conclusions

In the present study, the 24 mutated genes were detected in all 64 patients. This novel panel of 24 genes with high frequencies of mutation might provide new insights for individualized and precise treatment of gastric cancer patients.

Research perspectives

An efficient custom panel of 24 mutant genes can rapidly identify common drug targets with a relatively low detection cost. Furthermore, it can offer effective personalized treatment for gastric cancer patients.

FOOTNOTES

Xu M and Li Y conceived and designed this study; Zeng HH, Ze Yang, and Qiu YB were responsible for the data collection and analysis; Bashir S wrote the draft manuscript; Xu M and Li Y revised the manuscript; all authors critically reviewed the manuscript and approved the final manuscript for publication.

the Science and Technology Foundation of Guangzhou, No. 201803010059, and the Natural Science Foundation of Bengbu Medical College, No. BYKY2019129ZD.

Naturally a great scramble70 ensued, and at last the laughter and shouting awoke the Queen, who rang for her maids to ask the reason of such an unwonted hurry-burly

This study was approved by the Medical Ethics Committee of the First Affiliated Hospital of Bengbu Medical College (No. 2021KY029).

Informed written consent was obtained from the patient, all patients signed informed consent voluntarily.

The authors declare that they have no competing interests.

No additional data are available.

This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BYNC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is noncommercial. See: https://creativecommons.org/Licenses/by-nc/4.0/

China

In the 1980s, one young lady issued a public pronouncement dismissing（） all men under the height of 1.70 meters as handicapped . It was met with an avalanche1（） of responses from virtually all unmarried women in the nation.

Hui-Hui Zeng 0000-0003-4638-2238; Ze Yang 0000-0003-1898-504X; Ye-Bei Qiu 0000-0001-5322-3310;Shoaib Bashir 0000-0002-6032-2904; Yin Li 0000-0002-6587-6316; Meng Xu 0000-0001-7387-0734.

Wu YXJ

A

Chen YX