Gastrointestinal(GI)cancers are prevalent globally,with leading incidence and mortality rates among malignant tumors.Despite notable advancements in surgical resection,radiotherapy,and chemotherapy,the overall survival rates remain low.Hence,it is imperative to explore alternative approaches that enhance patient outcomes.Cluster of differentiation 47(CD47),serving as an early diagnostic marker,is predominantly overexpressed in GI cancers and associated with poor prognosis.Targeting the CD47-signal regulatory protein alpha(SIRPα)signaling pathway may provide a novel strategy for GI cancers treatment This study summarizes current knowledge of the structure and function of CD47 and SIRPα,their roles in signaling pathways,the prognostic significance of CD47,therapeutic strategies targeting the CD47-SIRPα signaling pathway in GI cancer,and highlights key issues for future investigations.

This study was aimed at investigating the presence of Helicobacter hepaticus(Hh)infection in patients with digestive tract diseases and evaluating Helicobacter pylori(Hp)infection status in patients with digestive tract cancers other than gastric cancer.Fecal samples were collected from 197 patients with digestive tract diseases at the Affiliated Cancer Hospital of Guizhou Medical Uni-versity and from 149 healthy volunteers residing in Guiyang.Hp stool antigen(HpSA)was detected with the colloidal gold method.Af-ter the extraction of fecal DNA,the Hp specific ureA gene and the Hh specific 16S rRNA gene were amplified via nested PCR,and the amplified products were subsequently confirmed through sequencing analysis.The study included 197 patients with digestive system diseases,comprising 135 cases of colorectal cancer,32 cases of chronic gastritis,22 cases of gastric cancer,5 cases of liver cancer,and 3 cases of cholangiocarcinoma.The detection rate of HpSA was 31.5%(62/197).HpSA was detected across all five disease catego-ries,and the highest detection rate was observed in patients with gastric cancer,at 50.0%(11/22),or colorectal cancer,at 24.4%(33/135).The positivity rate of Hp ureA gene PCR was 7.6%(15/197),and sequencing confirmed that the amplified products were in-deed Hp ureA gene fragments.Notably,the highest detection rate was observed in patients with colorectal cancer,at 8.9%(12/135).The positivity rate of Hh 16S rRNA gene PCR was 11.2%(22/197),and sequencing confirmed that the amplified products were in-deed Hh 16S rRNA gene fragments.Hh 16S rRNAgene presence was detected in patients with all five diseases,and the highest detec-tion rate was observed in patients with colorectal cancer,at 11.1%(15/135).Among 149 healthy volunteers,the detection rate of HpSA was 11.4%(17/149),only one case tested positive for the Hp ureA gene,and the Hh 16S rRNA gene was undetectable in all samples.In conclusion,Hh infection was detected in patients with digestive tract diseases.Beyond patients with gastric cancer,the prevalence of Hp infection was also notably high among patients with colorectal cancer,liver cancer,and cholangiocarcinoma.Further investigation is warranted to elucidate the roles of the two species of Helicobacter in the occurrence and progression of digestive tract cancers.

Gastrointestinal (GI) cancers are prevalent globally, with leading incidence and mortality rates among malignant tumors. Despite notable advancements in surgical resection, radiotherapy, and chemotherapy, the overall survival rates remain low. Hence, it is imperative to explore alternative approaches that enhance patient outcomes. Cluster of differentiation 47 (CD47), serving as an early diagnostic marker, is predominantly overexpressed in GI cancers and associated with poor prognosis. Targeting the CD47-signal regulatory protein alpha (SIRPα) signaling pathway may provide a novel strategy for GI cancers treatment. This study summarizes current knowledge of the structure and function of CD47 and SIRPα, their roles in signaling pathways, the prognostic significance of CD47, therapeutic strategies targeting the CD47-SIRPα signaling pathway in GI cancer, and highlights key issues for future investigations.

This study was aimed at investigating the presence of Helicobacter hepaticus(Hh)infection in patients with digestive tract diseases and evaluating Helicobacter pylori(Hp)infection status in patients with digestive tract cancers other than gastric cancer.Fecal samples were collected from 197 patients with digestive tract diseases at the Affiliated Cancer Hospital of Guizhou Medical Uni-versity and from 149 healthy volunteers residing in Guiyang.Hp stool antigen(HpSA)was detected with the colloidal gold method.Af-ter the extraction of fecal DNA,the Hp specific ureA gene and the Hh specific 16S rRNA gene were amplified via nested PCR,and the amplified products were subsequently confirmed through sequencing analysis.The study included 197 patients with digestive system diseases,comprising 135 cases of colorectal cancer,32 cases of chronic gastritis,22 cases of gastric cancer,5 cases of liver cancer,and 3 cases of cholangiocarcinoma.The detection rate of HpSA was 31.5%(62/197).HpSA was detected across all five disease catego-ries,and the highest detection rate was observed in patients with gastric cancer,at 50.0%(11/22),or colorectal cancer,at 24.4%(33/135).The positivity rate of Hp ureA gene PCR was 7.6%(15/197),and sequencing confirmed that the amplified products were in-deed Hp ureA gene fragments.Notably,the highest detection rate was observed in patients with colorectal cancer,at 8.9%(12/135).The positivity rate of Hh 16S rRNA gene PCR was 11.2%(22/197),and sequencing confirmed that the amplified products were in-deed Hh 16S rRNA gene fragments.Hh 16S rRNAgene presence was detected in patients with all five diseases,and the highest detec-tion rate was observed in patients with colorectal cancer,at 11.1%(15/135).Among 149 healthy volunteers,the detection rate of HpSA was 11.4%(17/149),only one case tested positive for the Hp ureA gene,and the Hh 16S rRNA gene was undetectable in all samples.In conclusion,Hh infection was detected in patients with digestive tract diseases.Beyond patients with gastric cancer,the prevalence of Hp infection was also notably high among patients with colorectal cancer,liver cancer,and cholangiocarcinoma.Further investigation is warranted to elucidate the roles of the two species of Helicobacter in the occurrence and progression of digestive tract cancers.

Flagella are the main motility structure of Clostridioides difficile that affects the adhesion, colonization, and virulence of C. difficile in the human gastrointestinal tract. The FliL protein is a single transmembrane protein bound to the flagellar matrix. This study aimed to investigate the effect of the FliL encoding gene flagellar basal body-associated FliL family protein (fliL) on the phenotype of C. difficile. The fliL gene deletion mutant (ΔfliL) and its corresponding complementary strains (: : fliL) were constructed using allele-coupled exchange (ACE) and the standard molecular clone method. The differences in physiological properties such as growth profile, antibiotic sensitivity, pH resistance, motility, and spore production ability between the mutant and wild-type strains (CD630) were investigated. The ΔfliL mutant and the : : fliL complementary strain were successfully constructed. After comparing the phenotypes of strains CD630, ΔfliL, and : : fliL, the results showed that the growth rate and maximum biomass of ΔfliL mutant decreased than that of CD630. The ΔfliL mutant showed increased sensitivity to amoxicillin, ampicillin, and norfloxacin. Its sensitivity to kanamycin and tetracycline antibiotics decreased, and the antibiotic sensitivity partially returned to the level of CD630 strain in the : : fliL strain. Moreover, the motility was significantly reduced in the ΔfliL mutant. Interestingly, the motility of the : : fliL strain significantly increased even when compared to that of the CD630 strain. Furthermore, the pH tolerance of the ΔfliL mutant significantly increased or decreased at pH 5 or 9, respectively. Finally, the sporulation ability of ΔfliL mutant reduced considerably compared to the CD630 strain and recovered in the : : fliL strain. We conclude that the deletion of the fliL gene significantly reduced the swimming motility of C. difficile, suggesting that the fliL gene is essential for the motility of C. difficile. The fliL gene deletion significantly reduced spore production, cell growth rate, tolerance to different antibiotics, acidity, and alkalinity environments of C. difficile. These physiological characteristics are closely related to the survival advantage in the host intestine, which is correlated with its pathogenicity. Thus, we suggested that the function of the fliL gene is closely related to its motility, colonization, environmental tolerance, and spore production ability, which consequently affects the pathogenicity of C. difficile.
Humans ; Clostridioides/metabolism* ; Clostridioides difficile/metabolism* ; Bacterial Proteins/metabolism* ; Virulence ; Anti-Bacterial Agents/metabolism*

Objective:To investigate the clinical significance of graft-versus host disease (GVHD)accompanied with new T-cell receptor (TCR) genes clonal rearrangement after allogeneic hematopoietic stem cell transplantation (allo-HSCT).Methods:The clinical data of 2 patients admitted to People's Hospital of Henan University from December 2018 to March 2020 who developed GVHD after allo-HSCT accompanied with TCR genes clonal rearrangement were retrospectively analyzed, and the related literatures were reviewed.Results:Patient 1 was diagnosed with peripheral T-cell lymphoma non-specific type (PTCL-NOS), and then developed severe acute GVHD (aGVHD) after identical sibling allo-HSCT, and gradually developed liver chronic GVHD (cGVHD), skin cGVHD and new TCR genes clonal rearrangement. Patient 2 was diagnosed with acute myeloid leukemia (AML)-M 4, and severe aGVHD, hepatic cGVHD, and clonal rearrangement of TCR genes were gradually detected after identical sibling allo-HSCT. Conclusions:The TCR genes clonal rearrangement after allo-HSCT is not necessarily suggestive of tumors, and it may be related to lymphocyte development disorder caused by GVHD, so the comprehensive judgement should be carefully made.

New threats posed by the emerging circulating variants of SARS-CoV-2 highlight the need to find conserved neutralizing epitopes for therapeutic antibodies and efficient vaccine design. Here, we identified a receptor-binding domain (RBD)-binding antibody, XG014, which potently neutralizes β-coronavirus lineage B (β-CoV-B), including SARS-CoV-2, its circulating variants, SARS-CoV and bat SARSr-CoV WIV1. Interestingly, antibody family members competing with XG014 binding show reduced levels of cross-reactivity and induce antibody-dependent SARS-CoV-2 spike (S) protein-mediated cell-cell fusion, suggesting a unique mode of recognition by XG014. Structural analyses reveal that XG014 recognizes a conserved epitope outside the ACE2 binding site and completely locks RBD in the non-functional "down" conformation, while its family member XG005 directly competes with ACE2 binding and position the RBD "up". Single administration of XG014 is effective in protection against and therapy of SARS-CoV-2 infection in vivo. Our findings suggest the potential to develop XG014 as pan-β-CoV-B therapeutics and the importance of the XG014 conserved antigenic epitope for designing broadly protective vaccines against β-CoV-B and newly emerging SARS-CoV-2 variants of concern.
Angiotensin-Converting Enzyme 2 ; Antibodies, Neutralizing ; Antibodies, Viral ; COVID-19 ; Epitopes ; Humans ; SARS-CoV-2/genetics* ; Spike Glycoprotein, Coronavirus/genetics*

Objective:To understand the current status of major occupational hazards in 750 kV extra high voltage (EHV) substations.Methods:In July 2019, through investigating and detecting the sulfur hexafluoride, power frequency electric field and noise occupational hazards of 750 kV EHV substations in substation 1, substation 2, substation 3, substation 4, substation 5, substation 6 and substation 7, the exposure intensity of the sulfur hexafluoride, power frequency electric field and noise intensity that the operators are exposed to during the inspection process were analyzed.Results:The qualified rate of 358 sulfur hexafluoride test results was 100.0% of the seven 750 kV EHV substations. The qualified rate of 8 h time-weighted average of the power frequency electric field of those 750 kV EHV substations contacted by operators was 100.0%. Among the 847 power frequency electric field detection points, the exceeding standard rate of power frequency electric field was 64.3%, and the differences in the power frequency electric field detection exceeding standard rates of different substations and inspection areas were statistically significant (χ 2=87.52, 50.86, P<0.01) . The highest exceeding standard rate of power frequency electric field was the circuit breaker inspection area (94.4%, 34/36) . The noise intensity test results of the seven EHV substations were 41.1-79.7 dB (A) , and the qualified rate was 100.0%. Conclusion:The sulfur hexafluoride, power frequency electric field and noise that the operators contacted in 750 kV EHV substations meet the requirements of occupational exposure limits. The inspection areas of main transformers, capacitors, reactors, bus bars and switches have high power frequency electric field radiation, should be select equipment iand give priority to robot inspection, and reasonably adjust the inspection time to reduce the intensity level of substation operators' exposure to power frequency electric field.

Objective:To understand the current status of major occupational hazards in 750 kV extra high voltage (EHV) substations.Methods:In July 2019, through investigating and detecting the sulfur hexafluoride, power frequency electric field and noise occupational hazards of 750 kV EHV substations in substation 1, substation 2, substation 3, substation 4, substation 5, substation 6 and substation 7, the exposure intensity of the sulfur hexafluoride, power frequency electric field and noise intensity that the operators are exposed to during the inspection process were analyzed.Results:The qualified rate of 358 sulfur hexafluoride test results was 100.0% of the seven 750 kV EHV substations. The qualified rate of 8 h time-weighted average of the power frequency electric field of those 750 kV EHV substations contacted by operators was 100.0%. Among the 847 power frequency electric field detection points, the exceeding standard rate of power frequency electric field was 64.3%, and the differences in the power frequency electric field detection exceeding standard rates of different substations and inspection areas were statistically significant (χ 2=87.52, 50.86, P<0.01) . The highest exceeding standard rate of power frequency electric field was the circuit breaker inspection area (94.4%, 34/36) . The noise intensity test results of the seven EHV substations were 41.1-79.7 dB (A) , and the qualified rate was 100.0%. Conclusion:The sulfur hexafluoride, power frequency electric field and noise that the operators contacted in 750 kV EHV substations meet the requirements of occupational exposure limits. The inspection areas of main transformers, capacitors, reactors, bus bars and switches have high power frequency electric field radiation, should be select equipment iand give priority to robot inspection, and reasonably adjust the inspection time to reduce the intensity level of substation operators' exposure to power frequency electric field.

Multi-species solid-state fermentation in a mud pit is one of the typical features of strong-flavor baijiu, in which archaea plays important roles, however, the archaeal community distribution and diversity during fermentation are still lack of research. The biomass, composition and succession of archaea communities in fermented grains and pit mud were analyzed by high throughput sequencing. The potential interaction between archaea and bacteria was analyzed by co-occurrence network. Results demonstrate that the average biomass of archaea in pit mud was about 200 times higher than that of fermented grains. There was no significant difference in archaeal community structure between fermented grains and pit mud (r=0.017, P=0.074), but succession patterns between them showed significant correlation (r=0.30, P=0.03). Methanobacterium was the most abundant archaea in fermented grains and pit mud, and other dominant groups included Methanosarcina, Methanocorpusculum, Methanoculleus, and Methanobrevibacter. The co-occurrence network analysis showed that Methanobacterium was positively correlated with most bacteria in fermented grains and pit mud, especially with Hydrogenispora and Caproiciproducens, the dominant bacteria in pit mud. Our results revealed the temporal and spatial distribution characteristics and potential functions of the archaeal community in the mud pit of strong-flavor baijiu.
Alcoholic Beverages/analysis* ; Archaea/genetics* ; Bacteria ; Fermentation ; Taste