Gut Bacteria and Nutritional Status of Nigerian Children at an Internally Displaced Persons’ Camp in Benue State, Nigeria: A Pilot Study

This study was conducted to determine the gut bacteria and nutritional status of children (n = 30) aged 2 - 11 in Benue’s largest internally displaced persons (IDP) camp since information on this is lacking. Gut bacteria were identified using culture techniques, while Body Mass Index (Kg/m2), Weight-for-Height (WHZ), and Weight-for-Age (WAZ) z scores were computed from anthropometric measurements. Socio-demographic and economic variables were collected via structured questionnaires. IBM SPSS v25 was used to analyze the data, with p Salmonella spp., Shigella spp., and Escherichia coli compared to children from a nearby private school (n = 10), except for E. coli, where the prevalence was equal. The results for BMI revealed that 23 (57.5%) of the children had a healthy weight while 17 (42.5%) were underweight.WAZ z-scores were between (-0.02 - 2.51) with evidence of mildly underweight (20%) and mildly overweight (5%) children. WHZ z-scores were between -0.03 - 2.37, with moderately wasted (30%) and severely wasted (5%) found. To ensure better health outcomes for residents, conditions in the camp must be improved.

Changes of gut bacteria and immune parameters in liver transplant recipients

BACKGROUND: Liver transplantation is one of the most effective therapeutic options for patients with end-stage liver diseases, and gut microbiota is actively involved in potential infections in pretransplant and posttransplant patients. However, the diversity of gut microbiota and its relationship with the immune parameter of liver transplantation recipients are not well understood. METHODS: We collected fresh feces and blood samples from 190 participants in China from November 2004 to May 2008, including 28 healthy volunteers, 51 cirrhotic patients and 111 liver-transplanted patients. Six interesting gut bacteria, plasma endotoxin, serum cytokines (i.e., tumor necrosis factor alpha and interleukin-6) and fecal secretory IgA (SIgA) were investigated by real-time quantitative PCR, chromogenic limulus amoebocyte assay, sandwich-type enzyme-linked immunosorbent assay and radioimmunoassay, respectively. RESULTS: All Eubacteria, Bifidobacterium spp., Faecalibacterium prausnitzii and Lactobacillus spp. were significantly lower in the liver transplantation recipients while Enterobacteriaceae and Enterococcus spp. were significantly higher (P<0.05). Except for Enterococcus spp., other bacteria showed a tendency to restore to normal level along with the time after liver transplantation. Plasma endotoxin, interleukin-6 and fecal SIgA in cirrhotic patients increased significantly, but not in liver transplantation recipients. Plasma endotoxin and interleukin-6 were negatively correlated with all Eubacteria and the Bacteroides-Prevotella group, while tumor necrosis factor alpha was not significantly correlated with these six gut bacteria in cirrhotic patients.CONCLUSIONS: Our study demonstrates that abundant gut bacteria were altered significantly in both cirrhotic and liver transplantation patients, while plasma endotoxin and interleukin-6 increased remarkably in cirrhotic patients, showing significant correlations with gut microbiota. Interestingly, our data show a tendency for these gut bacteria to restore to normal levels in liver transplantation recipients.

Tauroursodeoxycholic acid(TUDCA)improves intestinal barrier function associated with TGR5-MLCK pathway and the alteration of serum metabolites and gut bacteria in weaned piglets

Background:Tauroursodeoxycholic acid(TUDCA),a hydrophilic bile acid,is the main medicinal component of bear bile and is commonly used to treat a variety of hepatobiliary diseases.Meanwhile,TUDCA has been shown to modulate the intestinal barrier function and alleviate DSS-induced colitis in mice.However,the effect of TUDCA on the intestinal barrier of weaned piglets remains largely unclear.Methods:The weaned piglets and porcine IPEC-J2 intestinal epithelial cells were used to investigate the effects of TUDCA on intestinal barrier function in weaned piglets and explore the possible underlying mechanisms.In vivo,72 healthy weaned piglets were randomly allocated into 2 groups according to their gender and body weight,and piglets were fed the basal diet with 0(control,CON)and 200 mg/kg TUDCA for 30 d,respectively.Three female and three male piglets reflecting the average bodyweight were slaughtered in each group and samples were collected.In vitro,IPEC-J2 cells were subjected to 100μmol/L TUDCA to explore the possible underlying mechanisms.Results:Our results demonstrated that dietary TUDCA supplementation significantly reduced the diarrhea incidence of weaned piglets,possibly attributing to the TUDCA-enhanced intestinal barrier function and immunity.In addition,TUDCA supplementation altered serum metabolites and the relative abundance of certain gut bacteria,which might contribute to the improved intestinal barrier function.Furthermore,the in-vitro results showed that TUDCA improved the E.coli-induced epithelial barrier impairment of IPEC-J2 cells and increased Takeda G-coupled protein receptor 5(TGR5)protein expression.However,knockdown of TGR5 and inhibition of myosin light chain kinase(MLCK)pathway abolished the TUDCA-improved epithelial barrier impairment in E.coli-treated IPEC-J2 cells,indicating the involvement of TGR5-MLCK in this process.Conclusions:These findings showed that TUDCA improved intestinal barrier function associated with TGR5-MLCK pathway and the alteration of serum metabolites and gut bacteria in weaned piglets,suggesting the potential application of TUDCA in improving gut health in piglet production.

A Comparative Study on Rat Intestinal Epithelial Cells and Resident Gut Bacteria (ii) Effect of Arsenite

Objective In order to use facultative gut bacteria as an alternate to animals for the initial gastrointestinal toxicity screening of heavy metals, a comparative study on rat intestinal epithelial cells and resident gut bacteria was undertaken. Methods in vitro growth rate of four gut bacteria, dehydrogenase （DHA） and esterase （EA） activity test, intestinal epithelial and bacterial cell membrane enzymes and in situ effect of arsenite were analysed. Results Growth profile of mixed resident population of gut bacteria and pure isolates of Escherichia coli, Pseudomonas sp., Lactobacillus sp., and Staphylococcus sp. revealed an arsenite （2-20 ppm） concentration-dependent inhibition. The viability pattern of epithelial cells also showed similar changes. DHA and EA tests revealed significant inhibition （40%-72%） with arsenite exposure of 5 and 10 ppm in isolated gut bacteria and epithelial cells. Decrease in membrane alkaline phosphatase and Ca^2＋-Mg^2＋-ATPase activities was in the range of 33%-55% in four bacteria at the arsenite exposure of 10 ppm, whereas it was 60%-65% in intestinal epithelial villus cells, in situ incubation of arsenite using intestinal loops also showed more or less similar changes in membrane enzymes of resident gut bacterial population and epithelial cells. Conclusion The results indicate that facultative gut bacteria can be used as suitable in vitro model for the preliminary screening of arsenical gastrointestinal cytotoxic effects.

A faster killing effect of plastid-mediated RNA interference on a leaf beetle through induced dysbiosis of the gut bacteria

The expression of double-stranded RNAs(dsRNAs)from the plastid genome has been proven to be an effective method for controlling herbivorous pests by targeting essential insect genes.However,there are limitations to the efficiency of plastid-mediated RNA interference(PM-RNAi)due to the initial damage caused by the insects and their slow response to RNA interference.In this study,we developed transplastomic poplar plants that express dsRNAs targeting the b-Actin(dsACT)and Srp54k(dsSRP54K)genes of Plagiodera versicolora.Feeding experiments showed that transplastomic poplar plants can cause significantly higher mortality in P.versicolora larvae compared with nuclear transgenic or wild-type poplar plants.The efficient killing effect of PM-RNAi on P.versicolora larvae was found to be dependent on the presence of gut bacteria.Importantly,foliar application of a gut bacterial strain,Pseudomonas putida,will induce dysbiosis in the gut bacteria of P.versicolora larvae,leading to a significant acceleration in the speed of killing by PM-RNAi.Overall,our findings suggest that interfering with gut bacteria could be a promising strategy to enhance the effectiveness of PM-RNAi for insect pest control,offering a novel and effective approach for crop protection based on RNAi technology.

Modulative effect of Physalis alkekengi on both gut bacterial and fungal micro-ecosystem

Objective: Gut microbiome is an intricate micro-ecosystem mediating the human health and drug efficacy. Physalis alkekengi(PAL) is an edible and time-honored traditional Chinese medicine. Several pharmacological effects of PAL have been verified and gut bacteria are implied in its therapeutic actions.However, the detailed modulation of PAL on gut bacterial species and on gut fungi remains largely unknown. We, therefore, designed a preliminary experiment in normal mice to reveal the modulation effect of PAL on both gut bacteria and fungi, and explore the interaction between them.Methods: Herein, the aqueous extract of PAL was orally administrated to normal C57BL/6 mice for four weeks. The full-length 16S rRNA and ITS1/2 gene sequencing were explored to detect the taxa of gut bacteria and gut fungi after PAL treatment, respectively.Results: Oral administration of PAL notably enriched anti-infammatory bacterial species such as Duncaniella spp. and Kineothrix alysoides, whereas decreased pro-infammatory species such as Mucispirillum schaedleri. Simultaneously, PAL increased the abundance of gut fungi Aspergillus ochraceus,Cladosporium sp. and Alternaria sp., and decreased Penicillium janthinellum. Correlation network analysis identified two co-existing microbial groups(groups 1 and 2) that were negatively associated with each other. The group 1 comprised PAL-enriched bacteria and fungi, while group 2 was mainly normal chow-enriched bacteria and fungi. In group 1, Antrodia monomitica, Aspergillus clavatus, Mortierella kuhlmanii and Sarcinomyces sp. MA 4787 were positively correlated with Bifidobacterium globosum,Romboutsia ilealis and so on. In group 2, Chaetomium subspirilliferum, Septoria orchidearum and Cephaliophora tropica were positively related to Lactobacillus spp.Conclusion: Altogether, this preliminary study first demonstrated the modulation effect of PAL on both gut bacteria and gut fungi, which may shed light on the elucidation of PAL’s pharmacological mechanism.

Antibiotic-induced gut bacteria depletion has no effect on HBV replication in HBV immune tolerance mouse model

Commensal microbiota is closely related to Hepatitis B virus(HBV)infection.Gut bacteria maturation accelerates HBV immune clearance in hydrodynamic injection(HDI)HBV mouse model.However,the effect of gut bacteria on HBV replication in recombinant adeno-associated virus(AAV)-HBV mouse model with immune tolerance remains obscure.We aim to investigate its role on HBV replication in AAV-HBV mouse model.C57BL/6 mice were administrated with broad-spectrum antibiotic mixtures(ABX)to deplete gut bacteria and intravenously injected with AAV-HBV to establish persistent HBV replication.Gut microbiota community was analyzed by fecal qPCR assay and 16S ribosomal RNA(rRNA)gene sequencing.HBV replication markers in blood and liver were determined by ELISA,qPCR assay and Western blot at indicated time points.Immune response in AAV-HBV mouse model was activated through HDI of HBV plasmid or poly(I:C)and then detected by quantifying the percentage of IFN-γ^(+)/CD8^(+)T cells in the spleen via flow cytometry as well as the splenic IFN-γmRNA level via qPCR assay.We found that antibiotic exposure remarkably decreased gut bacteria abundance and diversity.Antibiotic treatment failed to alter the levels of serological HBV antigens,intrahepatic HBV RNA transcripts and HBc protein in AAV-HBV mouse model,but contributed to HBsAg increase after breaking of immune tolerance.Overall,our data uncovered that antibiotic-induced gut bacteria depletion has no effect on HBV replication in immune tolerant AAV-HBV mouse model,providing new thoughts for elucidating the correlation between gut bacteria dysbiosis by antibiotic abuse and clinical chronic HBV infection.

Multifunctional role of oral bacteria in the progression of nonalcoholic fatty liver disease

Non-alcoholic fatty liver disease(NAFLD)encompasses a spectrum of liver disorders of varying severity,ultimately leading to fibrosis.This spectrum primarily consists of NAFL and non-alcoholic steatohepatitis.The pathogenesis of NAFLD is closely associated with disturbances in the gut micr-obiota and impairment of the intestinal barrier.Non-gut commensal flora,particularly bacteria,play a pivotal role in the progression of NAFLD.Notably,Porphyromonas gingivalis,a principal bacterium involved in periodontitis,is known to facilitate lipid accumulation,augment immune responses,and induce insulin resistance,thereby exacerbating fibrosis in cases of periodontitis-associated NAFLD.The influence of oral microbiota on NAFLD via the“oral-gut-liver”axis is gaining recognition,offering a novel perspective for NAFLD management through microbial imbalance correction.This review endeavors to encapsulate the intricate roles of oral bacteria in NAFLD and explore underlying mechanisms,emphasizing microbial control strategies as a viable therapeutic avenue for NAFLD.

Immunogenic molecules associated with gut bacterial cell walls:chemical structures,immune-modulating functions,and mechanisms

Interactions between gut microbiome and host immune system are fundamental to maintaining the intestinal mucosal barrier and homeostasis.At the host-gut microbiome interface,cell wall-derived molecules from gut commensal bacteria have been reported to play a pivotal role in training and remodeling host immune responses.In this article,we review gut bacterial cell wall-derived molecules with characterized chemical structures,including peptidoglycan and lipid-related molecules that impact host health and disease processes via regulating innate and adaptive immunity.Also,we aim to discuss the structures,immune responses,and underlying mechanisms of these immunogenic molecules.Based on current advances,we propose cell wall-derived components as important sources of medicinal agents for the treatment of infection and immune diseases.

Evaluation of five antibiotics on larval gut bacterial diversity of Plutella xylostella （Lepidoptera： Plutellidae）

Larvae of the diamondback moth, Plutella xylostella L. （Lepidoptera： Plutelli- dae）, have rich microbial communities inhabiting the gut, and these bacteria contribute to the fitness of the pest. In this study we evaluated the effects of five antibiotics （rifampicin, ampicillin, tetracycline, streptomycin sulfate and chloramphenicol） on the gut bacterial di- versity ofP xylostella larvae. We screened five different concentrations for each antibiotic in a leaf disc assay, and found that rifampicin and streptomycin sulfate at 3 mg/mL signif- icantly reduced the diversity of the bacterial community, and some bacterial species could be rapidly eliminated. The number of gut bacteria in the rifampicin group and strepto- mycin sulfate group decreased more rapidly than the others. With the increase of antibiotic concentration, the removal efficiency was improved, whereas toxic effects became more apparent. All antibiotics reduced larval growth and development, and eventually caused high mortality, malformation of the prepupae, and hindered pupation and adult emergence. Among the five antibiotics, tetracycline was the most toxic and streptomycin sulfate was a relatively mild one. Some dominant bacteria were not affected by feeding antibiotics alone. Denaturing gradient gel electrophoresis graph showed that the most abundant and diverse bacteria in P xylostella larval gut appeared in the cabbage feeding group, and diet change and antibiotics intake influenced gut flora abundance. Species diversity was significantly reduced in the artificial diet and antibiotics treatment groups. After feeding on the artificial diet with rifampicin, streptomycin sulfate and their mixture for 10 days, larval gut bacteria could not be completely removed as detected with the agarose gel electrophoresis method.

Functional roles of gut bacteria imbalance in cholangiopathies

Cholangiopathies are caused by bile duct damage or inflammation followed by cholestasis leading to liver fibrosis.Bile duct epithelial cells,cholangiocytes,are a primary target for cholangiopathies.Ductular reaction is often observed in cholangiopathies and the proliferation of cholangiocytes is associated with ductular reaction and liver fibrogenesis.Accumulating evidence suggests that patients with chol-angiopathies have different gut bacterial profiles from healthy individuals,indicating the association between gut microbiota and cholangiopathies.Bile acids are produced by hepatocytes and modified by gut bacteria.Bile acids regulate cholangiocyte proliferation but effects vary depending on the type of bile acids.Recent studies suggest that therapies targeting gut bacteria,such as antibiotics administration and gut bacteria depletion or therapies using gut bacteria-associated bile acids,such as ursodeoxycholic acid(UDCA)administration,may be useful for treatments of cholangiopathies,although data are contro-versial depending on animal models or cohorts.This review summarizes current understandings of functional roles of gut bacterial imbalance and strategies for treatments of cholangiopathies targeting gut bacteria.

Skin-gut axis:The relationship between intestinal bacteria and skin health

The gut microbiome is an emerging area of interest in medicine. Imbalances in the gut microbiome have been linked to a number of disease states such as obesity and type 2 diabetes. The relationship between normally residing intestinal bacteria(the gut microbiota) and their potential role in the pathogenesis of skin diseases is an area of research for which we are only beginning to understand. Small studies have demonstrated underlying changes in the gut microbiome of patients with certain dermatological diseases. Interestingly, studies suggest that probiotics may have a role in the treatment of atopic dermatitis. However, the concept of the "skin-gut axis" is a newly emerging and important avenue of investigation, still lacking in pathobiological explanations. This review will introduce and describe the intestinal microbiome as it relates to skin health in a complex communication network between the immune system, endocrine system, metabolic system, and nervous system.

Gut commensal bacteria, Paneth cells and their relations to radiation enteropathy

In steady state, the intestinal epithelium forms an important part of the gut barrier to defend against luminal bacterial attack. However, the intestinal epithelium is compromised by ionizing irradiation due to its inherent selfrenewing capacity. In this process, small intestinal bacterial overgrowth is a critical event that reciprocally alters the immune milieu. In other words, intestinal bacterial dysbiosis induces inflammation in response to intestinal injuries, thus influencing the repair process of irradiated lesions. In fact, it is accepted that commensal bacteria can generally enhance the host radiation sensitivity. To address the determination of radiation sensitivity, we hypothesize that Paneth cells press a critical "button" because these cells are central to intestinal health and disease by using their peptides, which are responsible for controlling stem cell development in the small intestine and luminal bacterial diversity. Herein,the most important question is whether Paneth cells alter their secretion profiles in the situation of ionizing irradiation. On this basis, the tolerance of Paneth cells to ionizing radiation and related mechanisms by which radiation affects Paneth cell survival and death will be discussed in this review. We hope that the relevant results will be helpful in developing new approaches against radiation enteropathy.

Midgut bacterial communities in the giant Asian honeybee （Apis dorsata） across 4 developmental stages： A comparative study

Bacterial communities are known to play important roles during the developmental stages of insects, but current knowledge of bacteria associated with the midgut of Apis dorsata, the giant Asian honeybee, is limited. Using polymerase chain reaction-denaturing gradient gel electrophoresis analysis （PCR-DGGE） and 16S rRNA sequencing, the aim of this study was to determine the dynamics of bacterial community structure across four A. dorsata life stages in different geographical locations. The results reveal that bacterial diversity increased as the bee progressed through larval stage to newly emerged worker and old worker. However, in the pupal stage, no bands identified as bacteria could be observed. Overall, 2 bacterial phyla （Proteobacteria and Firmicutes） and 4 classes （Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, and Bacilli） were identified, but the frequency varied among the different stages and locations. The classes of Gammaproteobacteria and Bacilli dominated among larval, newly emerged worker and old worker developmental stages.

The Effects of Shrimp Gut Probiotic Bacteria on the Shrimp Larvae (Penaeus Chinensis)

The survival rates of shrimp larvae in different stage are higher than those of control groups when probiotic bacteria strains X4B 1 and X1B 1 which are isolated from gut of adult shrimp are added into the little volume rearing sea water of shrimp larvae. The effects of probiotic bacteria are evaluated by challenge test (pathogenic bacteria Z 3G 2 isolated from disease shrimp larvae in the hatchery of Jimo town) and low salinity stress resistance tests on shrimp larvae, the survival rate and lengths of the shrimp larvae in the experiment are determined. Results indicate that 1. The survival rate, ability of resistant to low salinity, lengths of the delivered shrimp larvae are improved after the strains of probiotic bacteria, X4B 1 or X1B 1, are added into the rearing sea water of hatchery. 2. The addition of the probiotic bacteria could not influence the change of the bacteria number, NH3 N and COD value in the rearing sea water. 3. The probiotic bacteria used in the experiment have many enzymes such as Lipase, Amylase, Gelatinase and Lecithinase. These enzymes may help the probiotic bacteria to digest the food components fed to shrimp larvae and increase the digestive efficiency of post larvae. This may be one of the reasons why these probiotic bacteria are beneficial to the shrimp larvae.

发酵枸杞多糖通过调节肠道微生态缓解葡聚糖硫酸钠诱导的溃疡性结肠炎

为探究多糖益生元调节肠道微生态作用机制,采用ELISA法、组织病理学分析、免疫组化分析、16S rRNA高通量测序、气相色谱-质谱联用等方法,研究发酵多糖对葡聚糖硫酸钠(DSS)诱导结肠炎模型小鼠肠道菌群和短链脂肪酸(SCFAs)变化的影响及其与肠道炎症水平、屏障蛋白表达的关系。结果发现,发酵枸杞多糖(FLBP)可显著降低小鼠肠道炎症水平,改善结肠组织结构,上调紧密连接蛋白Claudin-1和ZO-1表达量,同时显著增加肠道SCFAs含量。肠道菌群分析结果表明,FLBP可富集小鼠肠道杜氏芽孢杆菌(Dubosiella)和阿克曼氏菌属(Akkermansia),降低Turicibacter菌属、肠杆菌属(Faecalibaculum)、埃希氏菌-志贺菌属(Escherichia-Shigella)丰度。研究结果表明,FLBP激活重塑的杜氏芽孢杆菌在改善结肠炎中占主导作用,显著提升SCFAs含量,增强肠道屏障,降低肠道炎症。研究旨在为改善结肠炎提供更安全有益的选择,并为开发FLBP功能性食品提供理论依据。

Effects of simulated gut pH environment on bacterial composition and pheromone production of Dendroctonus valens

Bark beetles are an economically and ecologically important insect group,with aggregation behavior and thus host colonization success depends on pheromone-mediated communication.For some species,such as the major invasive forest pest in China,red turpentine beetle(Dendroctonus valens),gut microbiota participates in pheromone production by converting tree monoterpenes into pheromone products.However,how variation in gut microenvironment,such as pH,affects the gut microbial composition,and consequently pheromone production,is unknown.In this study,we fed wild caught D.valens with 3 different pH media(main host diet with natural pH of 4.7;a mildly acidic diet with pH 6 mimicking the beetle gut pH;and highly acidic diet with pH 4),and measured their effects on the gut pH,bacterial community and production of the main aggregation and anti-aggregation pheromone(verbenone).We further tested the verbenone production capacity of 2 gut bacterial isolates in different pH environments(pH 6 and 4).Compared to natural state or main host diet,feeding on less acidic diet(pH 6)diluted the acidity of the gut,whereas feeding on highly acidic diet(pH 4)enhanced it.Both changes in gut pH reduced the abundance of dominant bacterial genera,resulting in decreased verbenone production.Similarly,the highest pheromone conversion rate of the bacterial isolates was observed in pH mimicking the acidity in beetle gut.Taken together,these results indicate that changes in gut pH can affect gut microbiota composition and pheromone production,and may therefore have the potential to affect host colonization behavior.

不同寄主植物对桫椤叶蜂的生长发育及其肠道细菌群落的影响

为明确桫椤叶蜂Rhoptroceros cyatheae幼虫取食桫椤Alsophila spinulosa及小黑桫椤Gymnosphaera metteniana var.subglabra两种寄主植物后肠道菌群的结构组成和多样性,及取食两种寄主植物上的平均发育历期,利用Illumina HiSeq技术对取食两种寄主植物后的桫椤叶蜂幼虫肠道细菌的16S rDNA的V3~V4区域进行测序与分析,并记录在寄主植物上的平均发育历期。结果显示:(1)取食小黑桫椤的叶蜂卵历期、老熟幼虫期、蛹期(4.07±0.80 d、9.15±1.36 d和3.82±1.11 d)相比取食桫椤的(4.57±0.65 d、10.75±1.73 d和4.73±0.86 d)显著缩短,成虫寿命无显著影响;(2)取食桫椤的幼虫肠道注释到细菌4门6纲17目26科37属,取食小黑桫椤的桫椤叶蜂幼虫肠道注释到细菌12门17纲32目44科58属;其中,变形菌门Proteobacteria(83.68%±3.74%、81.18%±0.75%)是两组肠道的优势菌门;肠杆菌属Enterobacter(61.98%±10.64%、30.25%±1.75%)为两组的优势菌属。α多样性分析表明取食小黑桫椤的叶蜂幼虫肠道微生物群落多样性略高于取食桫椤的叶蜂幼虫,β多样性分析结果显示,取食小黑桫椤的叶蜂幼虫肠道微生物群落更稳定。KEGG功能预测分析显示取食桫椤和小黑桫椤的叶蜂肠道细菌群落功能无差异,肠道细菌主要参与宿主的营养代谢。本研究为进一步探讨影响桫椤叶蜂肠道细菌变化的因素,以及后续研究肠道细菌与寄主植物之间的互作提供参考。

不同月龄苏淮育肥猪纤维表观消化率、肠道长度与微生物差异分析

[目的]本试验旨在探究不同月龄苏淮育肥猪耐粗饲特征(以纤维表观消化率为评定表型)、肠道发育及肠道微生物的差异,并分析肠道发育及微生物与纤维表观消化率的相关性。[方法]试验选取82头出生条件相近的苏淮猪,在相同饲养环境下饲养,分别在7、8月龄时进行屠宰。采集结肠后端内容物样品并测定不同月龄结肠后段各营养成分的表观消化率;测定肠道长度、周长,分析不同月龄苏淮育肥猪肠道营养成分表观消化率和肠道发育差异,并进行消化率与肠道长度、周长的相关性分析。同时,分别在7、8月龄猪中选取高纤维消化率组和低纤维消化率组各5头进行盲肠、结肠内容物常见纤维分解菌的丰度分析。[结果]8月龄苏淮猪的粗纤维、中性洗涤纤维、酸性洗涤纤维、粗蛋白和粗脂肪的表观消化率均显著高于7月龄(P<0.05),但8月龄苏淮猪大肠、小肠及整个肠道长度、盲肠、结肠周长与7月龄间无显著差异。盲肠周长与粗纤维、酸性洗涤纤维和粗脂肪的表观消化率呈显著正相关(P<0.05)。7月龄和8月龄苏淮猪的盲肠、结肠白化瘤胃球菌和柔嫩梭菌的丰度在高、低纤维消化率组间均无显著差异。7月龄苏淮猪的结肠柔嫩梭菌丰度在高、低纤维消化组均显著高于盲肠(P<0.05)。8月龄苏淮猪结肠柔嫩梭菌丰度在低纤维消化率组显著低于7月龄(P<0.05)。[结论]不同月龄苏淮猪耐粗饲特征不同,随月龄的增加,苏淮猪的消化性能逐渐完善,8月龄苏淮猪各营养成分表观消化率显著高于7月龄,且其纤维消化率与盲肠周长呈显著正相关,但肠道内容物中白化瘤胃球菌和柔嫩梭菌可能不是影响其纤维消化的关键微生物。

肠道菌群对黄酮类化合物的代谢作用及生物学活性影响研究进展

黄酮类化合物是广泛存在于日常饮食中、由植物合成的次生代谢产物,具有多重生物学活性,如抗氧化、抗炎、抗癌、抗心血管疾病等。然而,黄酮类化合物的结构特点导致其在体内的生物利用度极低。近年来,研究发现黄酮类化合物能够在肠道菌群的作用下发生代谢转化,一定程度上提高了生物利用度,且其代谢产物具有与母药相似或更高的生物学活性。因此,解析黄酮类化合物在肠道菌群作用下的代谢规律及其代谢产物的生物学活性可为阐释其体内药效机理提供重要的理论参考依据。文章综述了黄酮类化合物在肠道微生物作用下的代谢反应,对黄酮类化合物经体内肠道菌群作用后代谢产物的生物学活性及机制进行相应的讨论,为明确黄酮类化合物在体内发挥生物学活性的有效形式提供理论支撑。