Objective To investigate the effects of different culture conditions(RPMI-1640,DMEM and DMEM/F12 medium)on the passage of MPM cells isolated from the tissues of Malignant pleural mesothelioma(MPM),and to study the effects of CDKN2B on the proliferation,invasion and apoptosis of MPM cells.Methods MPM cells were isolated from MPM tissues and cultured in RPMI-1640,DMEM and DMEM/F12 medium,respectively.Cell proliferation was examined by CCK-8,and the nuclei and chromosomes were observed by Wright-Giemsa staining.Fluorescence intensities of Calretinin,CD141,CK5,EMA and WT-1 were conducted by immunofluorescence assay.The mRNA and protein expression of CDKN2B were detected by RT-qPCR and Western blot,respectively.Transwell was used to detect cell invasion and flow cytometry was used to detect cell apoptosis.Results The established MPM cells showed good viability when passaged to the 10th generation in RPMI-1640,DMEM and DMEM/F12 cultures,and the MPM markers Calretinin,CD141,CK5,EMA and WT-1 were all expressed in the cells.The viability of MPM cells in RPMI-1640 culture medium was relatively stable.CDKN2B was downregulated in MPM cells(P<0.05),and overexpression of CDKN2B significantly suppressed the proliferation(P<0.05),invasion(P<0.05)and epithelial interstitial transformation of MPM cells(P<0.01),and promoted the apoptosis(P<0.01).Conclusion The established MPM cells were stably passaged in RPMI-1640 culture medium,and CDKN2B may be a potential target for the diagnosis and treatment of MPM.

Background::Given the established genetic linkage between triggering receptors expressed on myeloid cells 2 (TREM2) and Alzheimer’s disease (AD), an expanding research body has delved into the intricate role of TREM2 within the AD context. However, a conflicting landscape of outcomes has emerged from both in vivo and in vitro investigations. This study aimed to elucidate the multifaceted nuances and gain a clearer comprehension of the role of TREM2. Methods::PubMed database was searched spanning from its inception to January 2022. The search criteria took the form of ( "Alzheimer’s disease" OR "AD" ) AND ( "transgenic mice model" OR "transgenic mouse model" ) AND ( "Triggering receptor expressed on myeloid cells" OR "TREM2" ). Inclusion criteria consisted of the following: (1) publication of original studies in English; (2) utilization of transgenic mouse models for AD research; and (3) reports addressing the subject of TREM2.Results::A total of 43 eligible articles were identified. Our analysis addresses four pivotal queries concerning the interrelation of TREM2 with microglial function, Aβ accumulation, tau pathology, and inflammatory processes. However, the diverse inquiries posed yielded inconsistent responses. Nevertheless, the inconsistent roles of TREM2 within these AD mouse models potentially hinge upon factors such as age, sex, brain region, model type, and detection methodologies.Conclusions::This review substantiates the evolving understanding of TREM2’s disease progression-dependent impacts. Furthermore, it reviews the interplay between TREM2 and its effects across diverse tissues and temporal stages.

Diabetic gastroenteropathy is a serious chronic complication that accompanies the progression of diabetes mellitus， severely impacting patients' quality of life and overall health. Nearly half of diabetic patients experience symptoms such as nausea， vomiting， early satiety， abdominal distension， and abdominal pain， which increases their anxiety and depression， prompting frequent medical visits and further burdening the healthcare system. In-depth research into the pathogenesis of diabetic gastroenteropathy has identified several core mechanisms， including hyperglycemia， autonomic and enteric nervous system dysfunction， abnormal secretion of gastrointestinal hormones， macrophage polarization， brain-gut axis dysregulation， microRNA deficiency， and oxidative stress-induced damage and apoptosis of interstitial cells of Cajal （ICC）. Current clinical treatments mainly rely on prokinetic and antiemetic drugs. However， their notable adverse effects and diminishing efficacy with long-term use remain pressing issues. Traditional Chinese medicine （TCM）， with its unique theoretical framework and extensive practical experience， potent in prescription formulation and acupoint selection guided by holistic concepts and syndrome differentiation， has gradually become an important option for treating diabetic gastroenteropathy. Numerous studies have confirmed that mechanisms include improving gastrointestinal hormone secretion， repairing ICC damage， regulating the nervous system， reducing oxidative stress， and modulating the brain-gut axis. These findings provide new insights into the treatment of diabetic gastroenteropathy. This article summarized the pathogenesis of diabetic gastroenteropathy and reviewed recent research on Chinese medicine and acupuncture-moxibustion therapy in improving gastrointestinal motility for diabetic gastroenteropathy treatment， aiming to offer clinical treatment insights and highlight the need for further research to explore comprehensive and individualized treatment approaches， providing better strategies for managing diabetic gastroenteropathy.

The many-banded krait, Bungarus multicinctus, has been recorded as the animal resource of JinQianBaiHuaShe in the Chinese Pharmacopoeia. Characterization of its venoms classified chief phyla of modern animal neurotoxins. However, the evolutionary origin and diversification of its neurotoxins as well as biosynthesis of its active compounds remain largely unknown due to the lack of its high-quality genome. Here, we present the 1.58 Gbp genome of B. multicinctus assembled into 18 chromosomes with contig/scaffold N50 of 7.53 Mbp/149.8 Mbp. Major bungarotoxin-coding genes were clustered within genome by family and found to be associated with ancient local duplications. The truncation of glycosylphosphatidylinositol anchor in the 3'-terminal of a LY6E paralog released modern three-finger toxins (3FTxs) from membrane tethering before the Colubroidea divergence. Subsequent expansion and mutations diversified and recruited these 3FTxs. After the cobra/krait divergence, the modern unit-B of β-bungarotoxin emerged with an extra cysteine residue. A subsequent point substitution in unit-A enabled the β-bungarotoxin covalent linkage. The B. multicinctus gene expression, chromatin topological organization, and histone modification characteristics were featured by transcriptome, proteome, chromatin conformation capture sequencing, and ChIP-seq. The results highlighted that venom production was under a sophisticated regulation. Our findings provide new insights into snake neurotoxin research, meanwhile will facilitate antivenom development, toxin-driven drug discovery and the quality control of JinQianBaiHuaShe.