Hyaluronan Degradation by Cemip Regulates Host Defense against Staphylococcus aureus Skin Infection

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Seminalplasmin: A protein with many biological properties

Proteins present in the seminal plasma of mammals are known to influence functions associated with ejaculated spermatozoa such as motility, capacitation, acrosome reaction and fertilising ability. The proteins isolated and characterised so far influence only one of the above functions of spermatozoa. Seminalplasmin, a protein isolated from the seminal plasma of bull is exceptional in that it influences many of the above spermatozoal functions. It is also a potent antimicrobial protein and capable of lysing microbial and mammalian cells. The physiological function of seminalplasmin as nature's own antifertility agent is discussed.     

Programmed ageing: decline of stem cell renewal,immunosenescence, and Alzheimer's disease

The characteristic maximum lifespan varies enormously across animal species from a few hours to hundreds of years. This argues that maximum lifespan, and the ageing process that itself dictates lifespan, are to a large extent genetically determined. Although controversial, this is supported by firm evidence that semelparous species display evolutionarily programmed ageing in response to reproductive and environmental cues. Parabiosis experiments reveal that ageing is orchestrated systemically through the circulation, accompanied by programmed changes in hormone levels across a lifetime. This implies that, like the circadian and circannual clocks, there is a master ‘clock of age’ (circavital clock) located in the limbic brain of mammals that modulates systemic changes in growth factor and hormone secretion over the lifespan, as well as systemic alterations in gene expression as revealed by genomic methylation analysis. Studies on accelerated ageing in mice, as well as human longevity genes, converge on evolutionarily conserved fibroblast growth factors (FGFs) and their receptors, including KLOTHO, as well as insulin-like growth factors (IGFs) and steroid hormones, as key players mediating the systemic effects of ageing. Age-related changes in these and multiple other factors are inferred to cause a progressive decline in tissue maintenance through failure of stem cell replenishment. This most severely affects the immune system, which requires constant renewal from bone marrow stem cells. Age-related immune decline increases risk of infection whereas lifespan can be extended in germfree animals. This and other evidence suggests that infection is the major cause of death in higher organisms. Immune decline is also associated with age-related diseases. Taking the example of Alzheimer's disease (AD), we assess the evidence that AD is caused by immunosenescence and infection. The signature protein of AD brain, Aβ, is now known to be an antimicrobial peptide, and Aβ deposits in AD brain may be a response to infection rather than a cause of disease. Because some cognitively normal elderly individuals show extensive neuropathology, we argue that the location of the pathology is crucial – specifically, lesions to limbic brain are likely to accentuate immunosenescence, and could thus underlie a vicious cycle of accelerated immune decline and microbial proliferation that culminates in AD. This general model may extend to other age-related diseases, and we propose a general paradigm of organismal senescence in which declining stem cell proliferation leads to programmed immunosenescence and mortality.     

鸡源暹罗芽孢杆菌CML548的益生特性及全基因组分析

【背景】芽孢杆菌是用于动物微生态制剂的重要菌株之一。暹罗芽孢杆菌因具有较强的抑菌活性,近年来受到广泛关注。【目的】对实验室前期分离的鸡源暹罗芽孢杆菌CML548的益生特性进行评价,通过全基因组测序及生物信息学分析,探究其抑菌及潜在的益生机制。【方法】通过牛津杯法、稀释涂布平板法分别对菌株CML548的抑菌和产酶特性、酸和胆盐的耐受性进行研究。使用IlluminaHiSeq2500测序平台进行全基因组测序,并通过多种生物信息学工具和数据库对基因组进行注释和分析。【结果】体外实验表明该菌株具有优良的益生性状：能够有效抑制致病性大肠杆菌、鼠伤寒沙门氏菌、产气荚膜梭菌的生长;能够同时产生蛋白酶、淀粉酶和纤维素酶;具有较高的酸和胆盐耐受性。全基因组测序分析表明菌株CML548的基因组大小为4061741bp,GC含量为46.07%,预测到3 961个编码基因。分别有1 693、2 704、3 413、186、67、1、5个基因被GO、KEGG、COG、CAZy、DBAASP、CARD、VFDB数据库注释;通过antiSMASH预测到16个与次级代谢产物合成相关的基因簇。此外,还发现其含有抗菌活性...     

喙尾琵琶甲肠道来源链霉菌(Streptomyces sp.)BPA71次级代谢产物的分离鉴定及其生物活性评价

【背景】昆虫是世界上种类最多、肠道菌群资源最丰富且多样的动物类群之一。昆虫肠道微生物具有产生活性次级代谢产物的能力,是活性天然产物的重要来源。【目的】研究药用昆虫喙尾琵琶甲(Blaps rynchopetera)成虫肠道来源链霉菌(Streptomyces sp.) BPA71的次级代谢产物及其生物活性。【方法】利用正相硅胶柱色谱、葡聚糖凝胶Sephadex LH-20柱色谱等方法分离纯化该菌株的发酵粗提物,采用牛津杯法进行抗菌活性追踪,确定抗菌活性部位,通过ESI-MS、NMR等波谱数据分析对化合物结构进行鉴定,采用微量肉汤稀释法测定最低抑菌浓度(minimal inhibitory concentration, MIC),采用MTS法测定抗肿瘤活性。【结果】从Streptomyces sp. BPA71的固体发酵提取物中共分离得到4个已知化合物,通过对比核磁数据确定为糠酸甲酯(1)、吡咯甲酰胺A (2)、吡咯甲酰胺B (3)和吲哚-3-乙酸甲酯(4)。抗菌活性结果显示化合物2具有广谱抗菌活性。此外,化合物2对宫颈癌细胞HeLa、肺癌细胞A549、肝癌细胞SMMC-7721、乳腺癌细胞MDA-MB-231和结肠癌细胞SW480这5株肿瘤细胞均有明显的抑制活性。【结论】喙尾琵琶甲肠道来源Streptomyces sp. BPA71可产生丰富的生物活性物质,该研究结果为进一步挖掘喙尾琵琶甲肠道链霉菌的活性天然产物奠定了基础,同时丰富了人们对喙尾琵琶甲肠道微生物的认识。     

香蕉林土壤可培养放线菌分离、鉴定及其抑菌活性

【背景】香蕉枯萎病是香蕉的顽固性疾病,制约着香蕉产业的发展,因此,筛选出对香蕉枯萎病菌(尖孢镰刀菌古巴专化型4号生理小种,简称Foc4)具有抑制活性的生防菌株具有重要意义。【目的】分离香蕉林土壤样品中放线菌并进行物种的初步鉴定,测定其对包括香蕉枯萎病致病菌的7种病原菌的拮抗活性,获得高活性菌株,以获得解决香蕉枯萎病的生物防治策略。【方法】采集多份广西地区香蕉林土壤样品,采用超声波等手段对其预处理,设置多种特异性培养基从中分离放线菌资源,对获得的放线菌进行基于16SrRNA基因序列的物种鉴定,以7种病原菌为靶标,采用平板对峙法从中筛选抑菌活性菌株,最后采用菌丝生长速率法对Foc4的抑菌率进行测定。【结果】从香蕉林土壤中分离出138株放线菌均为链霉菌,其中5株为潜在新种,分别为X1085、X1052、X2052、X3059和X4046;筛选出具有抑菌活性的菌株77株,阳性率为55.8%。20株对Foc4具有抑制活性,其中4株拮抗效果明显,抑制率大于80%,菌株X4050的抑菌率高达93.76%。【结论】初步明确了香蕉林土壤中可培养放线菌的物种信息,其中部分放线菌为未知物种,活性分析显示一半...