探讨肠道菌群对膝骨关节炎治疗的影响

膝骨关节炎是一种中老年人常见的慢性疾病,因其发病率及致残率高,严重影响患者的生存质量。膝骨关节炎不仅增加了患者及其家庭乃至社会的经济压力,而且还加重了心理负担。治疗方案虽然多,但目前尚无根治方法,而且疗效也参差不齐。肠道菌群作为人体巨大的微生物宝库,拥有着很大的潜力,这使之成为了科研领域一个新的研究热点,其对膝骨关节炎的影响也成为了人们关注的焦点。本文通过查阅相关文献,从慢性炎症、代谢性疾病、成骨细胞以及破骨细胞这四个方面来阐述和总结肠道菌群与膝骨关节炎的关系,以期为临床上治疗膝骨关节炎提供新的方法与思路。     

益生菌在结直肠癌患者中的应用

结直肠癌(colorectal cancer,CRC)的发病率及病死率在多国多年居高不下,肠道微生态的失衡在CRC的发生发展中所起的作用被许多学者所证实。专家一致认为,积极纠正肠道微生态失衡是可取的。CRC患者术前肠道菌群已经出现改变,术后肠道菌群失衡加重,化疗会进一步加重这种失衡状态。肠道微生态的稳态对机体肠道功能和免疫功能等起着重要作用。益生菌作为一种可调节肠道菌群的微生态制剂,已显现出在CRC患者治疗中的应用价值,现对益生菌在CRC患者中的应用进展作一综述。     

肠道菌群与肠易激综合征分型及患者血清细胞间黏附分子 1表达的关系

目的分析肠道菌群与IBS分型及患者血清细胞间黏附分子 1(ICAM 1)表达的关系,为后续研究提供参考。方法选择2018年12月至2020年1月我院收治的152例符合标准的肠易激综合征(IBS)患者作为观察组,并依照罗马Ⅲ标准将观察组患者分为腹泻型组(62例)、便秘型组(56例)、混合型组(34例);选择同期我院健康体检者30例为对照组。检测受试者粪便中双歧杆菌、乳杆菌、肠杆菌和肠球菌数量,同时检测受试者血清ICAM 1水平。采用Pearson相关性分析患者肠道菌群与血清ICAM 1关系,并采用Logistics回归模型分析肠道菌群与IBS各亚型的关系。结果观察组患者血清ICAM 1、肠道双歧杆菌、乳杆菌水平显著低于对照组,肠道肠杆菌和肠球菌水平显著高于对照组,差异均有统计学意义(均P<0.05)。不同亚型IBS患者血清ICAM 1、肠道双歧杆菌、乳杆菌、肠杆菌和肠球菌水平存在明显差异,其中混合组患者血清ICAM 1、肠杆菌、肠球菌数量最高,双歧杆菌、乳杆菌数量最低;腹泻型组肠道肠杆菌、肠球菌数量最低,双歧杆菌、乳杆菌数量最高(均P<0.05)。肠道中双歧杆菌、乳杆菌、肠杆菌、肠球菌数量是IBS分型的独立影响因素(均P<0.05)。患者肠道双歧杆菌、乳杆菌数量与ICAM 1水平呈显著负相关,而肠道肠杆菌和肠球菌数量与ICAM 1水平呈显著正相关(均P<0.05)。结论肠道菌群可影响IBS患者分型,且肠道中部分菌群与ICAM 1水平存在显著相关关系。     

R-Spondin1 enhances wnt signaling and decreases weight loss in short bowel syndrome zebrafish

BackgroundR-spondins, including R-spondin 1 (RSPO1), are a family of Wnt ligands that help to activate the canonical Wnt/β-catenin pathway, which is critical for intestinal epithelial cell proliferation and maintenance of intestinal stem cells. This proliferation underpins the epithelial expansion, or intestinal adaptation (IA), that occurs following massive bowel resection and short bowel syndrome (SBS). The purpose of this study was to identify if recombinant human RSPO1 (rhRSPO1) could be serially administered to SBS zebrafish to enhance cellular proliferation and IA.MethodsAdult male zebrafish were assigned to four groups: sham + PBS, SBS + PBS, sham + rhRSPO1, and SBS + rhRSPO1. Sham fish had a laparotomy alone. SBS fish had a laparotomy with distal intestinal ligation and creation of a proximal stoma. Fish were weighed at initial surgery and then weekly. rhRSPO1 was administered post-operatively following either a one- or two-week dosing schedule with either 3 or 5 intraperitoneal injections, respectively. Fish were harvested at 7 or 14 days with intestinal segments collected for analysis.ResultsRepeated intraperitoneal injection of rhRSPO1 was feasible and well tolerated. At 7 days, intestinal epithelial proliferation was increased by rhRSPO1. At 14 days, SBS + rhRSPO1 fish lost significantly less weight than SBS + PBS fish. Measurements of intestinal surface area were not increased by rhRSPO1 administration but immunofluorescent staining for β-catenin and gene expression for cyclin D1 was increased.ConclusionsIntraperitoneal injection of rhRSPO1 decreased weight loss in SBS zebrafish with increased β-catenin + cells and cyclin D1 expression at 14 days, indicating improved weight maintenance might result from increased activation of the canonical Wnt pathway.     

A Quantitative Cell Migration Assay for Murine Enteric Neural Progenitors

Neural crest cells (NCC) are a transient and multipotent cell population that originates from the dorsal neural tube and migrates extensively throughout the developing vertebrate embryo. In addition to providing peripheral glia and neurons, NCC generate melanocytes as well as most of the cranio-facial skeleton. NCC migration and differentiation is controlled by a combination of their axial origin along the neural tube and their exposure to regionally distinct extracellular cues. Such contribution of extracellular ligands is especially evident during the formation of the enteric nervous system (ENS), a complex interconnected network of neural ganglia that locally controls (among other things) gut muscle movement and intestinal motility. Most of the ENS is derived from a small initial pool of NCC that undertake a long journey in order to colonize - in a rostral to caudal fashion - the entire length of the prospective gut. Among several signaling pathways known to influence enteric NCC colonization, GDNF/RET signaling is recognized as the most important. Indeed, spatiotemporally controlled secretion of the RET ligand GDNF by the gut mesenchyme is chiefly responsible for the attraction and guidance of RET-expressing enteric NCC to and within the embryonic gut. Here, we describe an ex vivo cell migration assay, making use of a transgenic mouse line possessing fluorescently labeled NCC, which allows precise quantification of enteric NCC migration potential in the presence of various growth factors, including GDNF.     

肠道微生物对肠道屏障功能完整性的维护机制研究概况

肠道微生物群是一个稳定且复杂的生态系统,可以通过形成菌膜屏障或促进肠道上皮细胞增殖分化等方式形成保护屏障,并在肠道病原菌感染和威胁期间维持和促进免疫稳态中起积极作用。本文重点叙述宿主-肠道微生物相互作用过程中抗病原菌感染的方式,以及肠道微生物参与合成抗菌化合物抵御肠道病原菌入侵和威胁的机制,为调控肠道微生物解决临床胃肠道疾病及其相关症状提供理论参考依据。     

参豉对气虚血瘀模型大鼠肠道微生物及其代谢多样性的影响

【背景】参豉为人参与大豆采用自淡豆豉中分离获得的优势益生菌株共同发酵而成。已证明对气虚血瘀模型大鼠血液指标具有明显的调节作用,但对肠道微生态作用尚不明确。【目的】以气虚血瘀模型大鼠为材料,探讨参豉对肠道微生态是否具有调节作用。【方法】采用长期"力竭游泳+饥饿"方法建立大鼠气虚血瘀模型,造模同时分别灌胃给药参豉高、中、低剂量(每日6、3、1.5 g/kg体重)及补阳还五汤剂60d后,分析肠道6种常驻菌群数量变化;并采用Biolog-ECO自动微生物鉴定系统研究大鼠肠道微生物的代谢情况。【结果】参豉能够促进气虚血瘀模型大鼠肠道中有益菌脆弱拟杆菌、乳酸菌及双歧杆菌的增殖,调节肠杆菌及肠球菌数量使其趋于正常水平,并抑制有害菌产气荚膜梭菌的增殖。Biolog结果显示参豉高剂量组AWCD值与空白组接近;培养48 h时,模型组Shannon指数、Shannon均匀度、Simpson指数以及Mclntosh指数均显著高于空白组,差异显著(P0.05或P0.01),而参豉高剂量组Shannon指数、Shannon均匀度、Simpson指数与空白组相接近,差异无统计学意义(P0.05),与模型组相比差异极显著(P0.01);聚类分析与主成分分析显示参豉各剂量组与空白组、模型组、补阳还五汤组差异明显,可能与不同剂量参豉对气虚血瘀模型大鼠肠道微生态的调节作用相关。【结论】参豉对气虚血瘀模型大鼠肠道菌群具有明显的改善作用。     

Astragalus polysaccharides alleviates LPS-induced inflammation via the NF-κB/MAPK signaling pathway

Early weaning usually causes intestinal disorders, enteritis, and diarrhea in young animals and human infants. Astragalus polysaccharides (APS) possesses anti-inflammatory activity. To study the anti-inflammatory mechanisms of APS and its potential effects on intestinal health, we performed an RNA sequencing (RNA-seq) study in lipopolysaccharide (LPS)-stimulated porcine intestinal epithelial cells (IPEC-J2) in vitro. In addition, LPS-stimulated BALB/c mice were used to study the effects of APS on intestinal inflammation in vivo. The results from the RNA-seq analysis show that there were 107, 756, and 5 differentially expressed genes in the control versus LPS, LPS versus LPS+APS, and control versus LPS+APS comparison groups, respectively. The results of Kyoto Encyclopedia of Genes and Genomes enrichment analysis indicated that the mitogen-activated protein kinase (MAPK) and nuclear factor-κB (NF-κB) signaling pathways play significant roles in the regulation of inflammatory factors and chemokine expression by APS. Further verification of the above two pathways by using western blot and immunofluorescence analysis revealed that the gene expression levels of the phosphorylated p38 MAPK, ERK1/2, and NF-κB p65 were inhibited by APS, while the expression of IκB-α protein was significantly increased (p < .05), indicating that APS inhibits the production of inflammatory factors and chemokines by the inhibition of activation of the MAPK and NF-κB inflammatory pathways induced by LPS stimulation. Animal experiments further demonstrated that prefeeding APS in BALB/c mice can alleviate the expression of the jejunal inflammatory factors interleukin 6 (IL-6), IL-Iβ, and tumor necrosis factor-α induced by LPS stimulation and improve jejunal villus morphology.     

Circadian Variations in Exsorptive Transport: In Situ Intestinal Perfusion Data and In Vivo Relevance

The circadian timing system (CTS) governs the 24-h rhythm of the organism and, hence, also main pathways responsible for drug pharmacokinetics. P-glycoprotein (P-gp) is a drug transporter that plays a pivotal role in drug absorption, distribution, and elimination, and temporal changes in its activity may affect input, output, activity, and toxicity profile of drugs. In the current study, the influence of different circadian stages on the overall intestinal permeability (P_eff) of the P-gp substrates talinolol and losartan was evaluated in in situ intestinal perfusion studies in rats. Additionally, in vivo studies in rats were performed by employing the P-gp probe talinolol during the day (nonactive) and night (active) period in rats. Effective intestinal permeabilities of talinolol and losartan were smaller in studies performed during the night (p?<?.05), indicating that P-gp–dependent intestinal secretion is greater during the nighttime activity span than daytime rest span of the animals. P-gp modulators vinblastine and PSC833 led to a significant decrease of talinolol and losartan exsorption in the intestinal segments as compared with control groups. Strikingly, the permeability-enhancing effect of vinblastine and PSC833 was higher with night perfusions, for both talinolol and losartan. In vivo studies performed with talinolol revealed—consistent with the in situ studies (P_eff day?>?night)—a day vs. night difference in the oral availability of talinolol in the group of male rats in terms of the area under the curve (AUC) data (AUC_day?>?AUC_night). The P-gp modulator vinblastine significantly increased talinolol AUC_day (p?<?.05), whereas only a weak vinblastine effect was seen in night. According to the in situ data, the functional activity of P-gp was regulated by the CTS in jejunum and ileum, which are major intestinal segments for energy-dependent efflux. In conclusion, circadian rhythms may affect carrier-mediated active efflux and play a role in the absorption process. In addition to daily rhythms in P-gp activity in rat intestine, the in vivo studies indicate that absorption-, distribution-, metabolism-, and elimination-relevant rhythms may be involved in the circadian kinetics of the drug, besides transporter-dependent efflux, such well-known aspects as metabolic or renal clearance or motility. Since this also holds true for a potentially interacting second compound (modulator), modulator effects should be evaluated carefully in transporter related drug-drug interactions. (Author correspondence: aokyar@istanbul.edu.tr)     

Human Core Temperature Responses during Exercise and Subsequent Recovery: An Important Interaction between Diurnal Variation and Measurement Site

Chronobiological investigations into core temperature during and after exercise can involve ambulatory measurements of intestinal temperature during actual competitions, esophageal temperature measurements in laboratory simulations, or rectal temperature, which can be measured in both the field and laboratory. These sites have yet to be compared during both morning and afternoon exercise and subsequent recovery. At 08∶00 and 17∶00 h, seven recreationally active males exercised at 70% peak oxygen uptake for 30 min and then recovered passively for 30 min. During the experiment, esophageal, rectal, intestinal, and skin temperatures, plus sweat loss, heart rate, and ratings of perceived exertion (RPE), were monitored. We found that the diurnal variation in intestinal temperature responses (0.45±0.32°C; mean±SD) was significantly larger compared with rectal (0.33±0.24°C) and, particularly, esophageal temperature responses (0.21±0.20°C; p= 0.019). This reflected a greater difference of 0.25–0.40°C between the esophagus and the other two sites in the afternoon, compared to inter‐site differences of only 0.13–0.16°C in the morning. Diurnal variation was small for skin temperature, heart rate, sweat loss, and RPE responses during exercise (p>0.05). Our data suggest that the relative differences between intestinal, rectal, and esophageal temperature during exercise and subsequent recovery depend on time of day to the extent that inferences from studies on experimental and applied chronobiology will be affected.