皮肤共生菌在皮肤健康和疾病中的作用研究进展

人体皮肤上有多种微生物定居,这些微生物群落的组成、分布和动态变化对皮肤的健康状况和疾病有着重要的调节作用.然而,人们一直不清楚皮肤微生物群落如何影响人类健康.对皮肤共生菌进行深入研究,不仅有助于发现有益皮肤共生菌菌株,也有助于筛选相应皮肤疾病新的药物靶标.近年来,对皮肤共生菌与宿主之间相互影响和作用机制的研究逐渐深入,...     

慢性湿疹患者皮损、鼻粘膜需氧微生物群的定位、定量研究

本文首次应用定位、定量方法对23例小腿部慢性湿疹患者皮损、邻近皮肤及鼻孔的菌群,从微生态学的角度进行探讨,并将结果同24例正常人小腿皮肤及鼻孔的菌群做了比较。其结果表明:金黄色葡萄球菌为皮损及邻近皮肤的主要菌种,并且其分离率及密度有按正常皮肤、邻近皮肤、皮损依次增高现象;类白喉杆菌的数量在皮损部位明显低于正常皮肤与邻近皮肤;表皮葡萄球菌分离率皮损及邻近皮肤均明显降低。本组结果同正常对照组相比其皮肤微生物群菌谱虽无不同,但其数量的变异是显著的,这对探讨湿疹的病因及用生态制剂等调整皮肤菌群使其恢复微生态平衡达到防治目的有所裨益。     

糖尿病皮肤感染与微生物菌群关系的研究进展

糖尿病是以血糖升高为特征的内分泌疾病,由于高血糖状态,使吞噬细胞的趋化作用、吞噬作用以及杀菌功能受损,抗感染能力减弱。正常情况下,人体皮肤微生物菌群对维持人体健康发挥着重大屏障作用,并在皮肤表面保持着动态的平衡,而这种平衡因糖尿病被打破导致皮肤菌群发生紊乱时,人体就会患上各种皮肤感染性疾病,包括真菌、细菌、病毒等。探究如何调整糖尿病患者皮肤微生态平衡、预防及控制其感染,减少感染并发症具有重要意义。     

人皮肤菌群分离株与成纤维细胞培养

为研究微生物群(微种群)与宿主的关系,我们在人成纤维细胞的培养物中,定量的加入从皮肤上分离的常住菌和其它菌株的纯培养物进行混合培养,设立不加菌液的对照组,发现加入疮疤丙酸杆菌(A_(14-1)、表皮葡萄球菌(F_(65))等常住菌,以及从皮肤上分离的干酪乳杆菌(ad_3株)、青春双歧杆菌(Bf_1),有促进人成纤维细胞生长,延缓其老化等作用。而加入从临床标本中分离的脆弱美杆菌(A104株)及金黄色葡萄球菌(189株),则出现培养的人成纤维细胞脱核、裂解和死亡等毒害作用。我们的实验表明:皮肤正常菌群对宿主的皮肤有生理性的滋助作用。     

溶血磷脂酸在皮肤损伤疾病中的作用及其分子机制

皮肤作为人体最大器官覆盖于全身,能阻挡有害物质的侵入,保护人体内环境稳态,参与人体代谢过程。皮肤损伤、炎症和纤维化等,都会导致皮肤屏障功能的减退,影响正常的生命活动。溶血磷脂酸(lysophosphatidic acid,LPA)是十分活跃的磷脂信号分子,参与多种生理和病理生理过程。LPA是维持体内平衡所必需的生物活性脂质介质,在皮肤中通过不同的信号通路发挥多功能磷脂信使作用。本文综述了皮肤中溶血磷脂酸受体(lysophosphatidic acid receptor,LPA1-6)及其细胞信号通路的作用及机制,综述了LPA在皮肤创面愈合、皮肤瘢痕、皮肤黑色素瘤、硬皮病、皮肤瘙痒、过敏性皮炎、皮肤屏障、皮肤疼痛,皮肤毛发生长中的作用及分子机制,有助于了解LPA在皮肤中的生理和病理生理作用。深入研究LPA的作用机制将有助于挖掘其在皮肤治疗中的作用,开发以LPA为靶点的药物。     

健康人皮肤正常菌群的研究

本研究对我国健康人皮肤正常菌群进行了探讨,发现在健康人前额皮肤上表皮葡萄球菌数为1.6×10~2～1.7×10~7/厘米~2,疮疤丙酸杆菌数为5.3×10~2～4.1×10~7/厘米~2,棒状杆菌数为1.31×10~2～4.1×10~4/厘米~2,真菌为0.17×10~2～6.1×10~3/厘米~2。在全皮标本中疮疱丙酸杆菌数为1.12×10~2～1.7×10~5/厘米~2,表皮葡萄球菌为1.36×10~2～3.9×10~2/厘米~2。表皮标本中,随年龄增加,表皮葡萄球菌有所减少,而金黄色葡萄球菌则增多。男女性皮肤正常菌群的比较中,表皮葡萄球菌、棒状杆菌、疮疱丙酸杆菌男性高于女性,而金黄色葡萄球菌、真菌却女性多于男性,但差异都不显著。全皮标本与表皮标本的比较中,表皮标本中表皮葡萄球菌、疮疱丙酸杆菌、金黄色葡萄球菌、棒状杆菌和真菌数都多于全皮标本,只是上述的后三种菌群的差异显著。     

共生表皮葡萄球菌促进果蝇胚后发育

【背景】动物体定殖有多种共生微生物,这些共生微生物严重影响着宿主生理和病理,日益成为研究热点之一。【目的】分离与鉴定黑腹果蝇共生菌,探究表皮葡萄球菌对黑腹果蝇的发育影响和潜在作用机制。【方法】用CEM培养基(Carotenoid expression medium)从果蝇肠道内分离细菌,通过16SrRNA基因序列比对鉴定菌株;以发育时间和幼虫表面积检测果蝇的发育时期和生长速率;利用实时定量PCR检测果蝇促前胸腺激素与胰岛素通路的激活。【结果】从果蝇体内分离到的菌株为表皮葡萄球菌,该菌可以有效定殖于果蝇的肠道。表皮葡萄球菌通过提高果蝇生长速率而显著促进其发育。在分子水平上,表皮葡萄球菌激活PTTH和胰岛素信号以刺激宿主的生长发育。【结论】表皮葡萄球菌是果蝇的一种共生菌,可以通过调控PTTH和胰岛素信号而刺激果蝇生长发育。     

共生微生物组对宿主免疫稳态的调控作用

宿主皮肤、口腔以及胃肠道的大量共生微生物组与宿主免疫系统互相作用,对于维持宿主的能量代谢、免疫稳态和多种疾病的发生和发展都有重要影响。定植于宿主体表的共生微生物组既可以帮助消化食物、合成维生素,又可以引起过敏反应和炎症感染。因此,通过研究共生微生物组和宿主免疫系统之间的对话交流,可以明晰宿主免疫系统维持共生微生物组的生态平衡的作用机理,进一步明确共生微生物组调节宿主免疫稳态的分子机制,对于探索共生微生物引起的多种免疫相关性疾病的病理基础和治疗方式具有重要意义。     

表皮葡萄球菌PhoU同源物(SERP0316)的抗体制备及免疫鉴定

表皮葡萄球菌可在植入性医疗材料表面形成生物膜,对多种抗生素耐受,而持留菌的形成是导致细菌生物膜耐药的原因之一。研究发现,大肠埃希菌中PhoU可影响持留菌的形成,与细菌对多种抗生素及压力条件的耐受相关,但表皮葡萄球菌中PhoU的功能仍不清楚。生物信息学分析显示,在表皮葡萄球菌中存在2个phoU同源基因,其中serp0956位于pst操纵子中,命名为phoU1;另一个编码功能未知蛋白的phoU基因同源物(serp0316)命名为phoU2。前期研究显示,敲除phoU1并不影响表皮葡萄球菌生长、生物膜形成等生物学特性,为此本研究对PhoU2进行了初步探讨。利用实时荧光定量反转录-聚合酶链反应(RT-PCR)检测phoU2基因在表皮葡萄球菌SE1457不同生长时期的转录水平,发现其在细菌生长不同时间点持续表达,其中对数期(6h)表达量相对较高。为进一步研究表皮葡萄球菌中PhoU2的表达情况,对PhoU2蛋白进行原核表达和纯化,并用纯化的重组PhoU2蛋白免疫小鼠制备PhoU2多克隆抗体。在此基础上,利用蛋白免疫印迹法检测PhoU2在SE1457菌株不同生长时间点的表达水平,结果显示PhoU2在细菌生长对数期和平台期均有表达。另外,在不同的表皮葡萄球菌临床分离株中均检测到PhoU2蛋白表达,表明PhoU2具有一定的保守性。以上研究提示,PhoU2可能作为PhoU的功能同源物发挥一定的作用,为进一步研究表皮葡萄球菌PhoU2的生物学功能及其在生物膜和持留菌形成中的作用奠定了基础。     

正常菌群对常见致病菌拮抗作用的研究

生物拮抗作用是微生物种群关系研究的一个侧面,实验中我们使用从皮肤上分离的常住菌——痤疮丙酸杆菌(A14-1)和表皮葡萄球菌(F65)对常见致病菌如金黄色葡萄球菌(C189)、绿脓杆菌(C8514)和埃希氏大肠杆菌(C1356)的体外拮抗试验表明,它们具有明显的拮抗作用,拮抗作用一般从48小时开始,72小时明显。而皮肤常住菌间无拮抗作用,相反它们还有协同作用,这对于皮肤的自净以及维持皮肤的微生态平衡具有重要的作用。此外,实验中还进行了乳杆菌和双歧杆菌等正常菌群分离株与上述常见致病菌的体外拮抗试验,结果表明也     

Identification and structure-activity relationship of an antimicrobial peptide of the palustrin-2 family isolated from the skin of the endangered frog Odorrana ishikawae

Recently, we identified nine novel antimicrobial peptides from the skin of the endangered anuran species, Odorrana ishikawae, to assess its innate immune system. In this study an additional antimicrobial peptide was initially isolated based on antimicrobial activity against Escherichia coli. The new antimicrobial peptide belonging to the palustrin-2 family was named palustrin-2ISb. It consists of 36 amino acid residues including 7 amino acids C-terminal to the cyclic heptapeptide Rana box domain. The peptide's primary structure suggests a close relationship with the Chinese odorous frog, Odorrana grahami. The cloned cDNA encoding the precursor protein contained a signal peptide, an N-terminal acidic spacer domain, a Lys-Arg processing site and the C-terminal precursor antimicrobial peptide. It also contained 3 amino acid residues at the C-terminus not found in the mature peptide. Finally, the antimicrobial activities against four microorganisms (E. coli, Staphylococcus aureus, methicillin-resistant S. aureus and Candida albicans) were investigated using several synthetic peptides. A 29 amino acid truncated form of the peptide, lacking the 7 amino acids C-terminal to the Rana box, possessed greater antimicrobial activities than the native structure.     

益生菌促进胃肠道健康的机制及应用

人体胃肠道内生活着大量微生物,它们影响着宿主的健康.益生菌是一种活的微生物,对维持肠黏膜屏障功能、调节免疫功能和促进营养物质的代谢吸收等具有重要作用;对肠道菌群紊乱、功能性消化不良、肠胃炎、腹泻、便秘、肠绞痛、肠易激综合征、炎症性肠病以及幽门螺杆菌感染等胃肠道疾病具有良好的应用.本文对益生菌与胃肠道健康的影响作简要概述...     

An 18 kDa Scaffold Protein Is Critical for Staphylococcus epidermidis Biofilm Formation

Virulence of the nosocomial pathogen Staphylococcus epidermidis is crucially linked to formation of adherent biofilms on artificial surfaces. Biofilm assembly is significantly fostered by production of a bacteria derived extracellular matrix. However, the matrix composition, spatial organization, and relevance of specific molecular interactions for integration of bacterial cells into the multilayered biofilm community are not fully understood. Here we report on the function of novel 18 kDa Small basic protein (Sbp) that was isolated from S. epidermidis biofilm matrix preparations by an affinity chromatographic approach. Sbp accumulates within the biofilm matrix, being preferentially deposited at the biofilm–substratum interface. Analysis of Sbp-negative S. epidermidis mutants demonstrated the importance of Sbp for sustained colonization of abiotic surfaces, but also epithelial cells. In addition, Sbp promotes assembly of S. epidermidis cell aggregates and establishment of multilayered biofilms by influencing polysaccharide intercellular-adhesin (PIA) and accumulation associated protein (Aap) mediated intercellular aggregation. While inactivation of Sbp indirectly resulted in reduced PIA-synthesis and biofilm formation, Sbp serves as an essential ligand during Aap domain-B mediated biofilm accumulation. Our data support the conclusion that Sbp serves as an S. epidermidis biofilm scaffold protein that significantly contributes to key steps of surface colonization. Sbp-negative S. epidermidis mutants showed no attenuated virulence in a mouse catheter infection model. Nevertheless, the high prevalence of sbp in commensal and invasive S. epidermidis populations suggests that Sbp plays a significant role as a co-factor during both multi-factorial commensal colonization and infection of artificial surfaces.     

Neuronal targeting, internalization, and biological activity of a recombinant atoxic derivative of botulinum neurotoxin A

We recently reported the primary structures, antimicrobial activities and cDNA precursors of nine novel antimicrobial peptides from the skin of the endangered anuran species, Odorranaishikawae. Their cDNA clones revealed a highly conserved approximately 60 bp region upstream of the start codon. This conserved region was used in the “shotgun” cDNA cloning method to reveal additional cDNAs encoding novel antimicrobial peptides of O.ishikawae. After sequencing 344 clones, we identified novel 13 cDNAs encoding dermal peptides in addition to the previously identified nine antimicrobial peptides. These 13 unique cDNAs encoded precursor proteins each containing a signal peptide, an N-terminal acidic spacer domain, a Lys-Arg/Lys processing site and a dermal peptide at the C-terminus. The dermal peptides were members of the palustrin-2 (two peptides; termed palustrin-2ISc and palustrin-2ISd), nigrocin-2 (one peptide; nigrocin-2ISc), brevinin-1 (one peptide; brevinin-1ISa), odorranain-M (one peptide; odorranain-MISa) and entirely novel peptides (eight peptides; ishikawain-1-8). Although palustrin-2ISd and odorranain-MISa had few antimicrobial activities, palustrin-2ISc and nigrocin-2ISc possessed a broad-spectrum of growth inhibition against bacteria. Brevinin-1ISa had the most potent antimicrobial activities against the Gram-positive bacteria and the fungus but not the Gram-negative bacterium, Escherichiacoli. However, eight novel peptides showed no growth inhibition against these microorganisms.     

Non-toxic plant metabolites regulate Staphylococcus viability and biofilm formation: a natural therapeutic strategy useful in the treatment and prevention of skin infections

In the present study, the efficacy of generally recognised as safe (GRAS) antimicrobial plant metabolites in regulating the growth of Staphylococcus aureus and S. epidermidis was investigated. Thymol, carvacrol and eugenol showed the strongest antibacterial action against these microorganisms, at a subinhibitory concentration (SIC) of ≤ 50 μg ml^?1. Genistein, hydroquinone and resveratrol showed antimicrobial effects but with a wide concentration range (SIC = 50–1,000 μg ml^?1), while catechin, gallic acid, protocatechuic acid, p-hydroxybenzoic acid and cranberry extract were the most biologically compatible molecules (SIC ≥ 1000 μg ml^?1). Genistein, protocatechuic acid, cranberry extract, p-hydroxybenzoic acid and resveratrol also showed anti-biofilm activity against S. aureus, but not against S. epidermidis in which, surprisingly, these metabolites stimulated biofilm formation (between 35% and 1,200%). Binary combinations of cranberry extract and resveratrol with genistein, protocatechuic or p-hydroxibenzoic acid enhanced the stimulatory effect on S. epidermidis biofilm formation and maintained or even increased S. aureus anti-biofilm activity.     

Staphylococcus epidermidis in the human skin microbiome mediates fermentation to inhibit the growth of Propionibacterium acnes: implications of probiotics in acne vulgaris

Increasing evidence demonstrates that commensal microorganisms in the human skin microbiome help fight pathogens and maintain homeostasis of the microbiome. However, it is unclear how these microorganisms maintain biological balance when one of them overgrows. The overgrowth of Propionibacterium acnes (P. acnes), a commensal skin bacterium, has been associated with the progression of acne vulgaris. Our results demonstrate that skin microorganisms can mediate fermentation of glycerol, which is naturally produced in skin, to enhance their inhibitory effects on P. acnes growth. The skin microorganisms, most of which have been identified as Staphylococcus epidermidis (S. epidermidis), in the microbiome of human fingerprints can ferment glycerol and create inhibition zones to repel a colony of overgrown P. acnes. Succinic acid, one of four short-chain fatty acids (SCFAs) detected in fermented media by nuclear magnetic resonance (NMR) analysis, effectively inhibits the growth of P. acnes in vitro and in vivo. Both intralesional injection and topical application of succinic acid to P. acnes-induced lesions markedly suppress the P. acnes-induced inflammation in mice. We demonstrate for the first time that bacterial members in the skin microbiome can undergo fermentation to rein in the overgrowth of P. acnes. The concept of bacterial interference between P. acnes and S. epidermidis via fermentation can be applied to develop probiotics against acne vulgaris and other skin diseases. In addition, it will open up an entirely new area of study for the biological function of the skin microbiome in promoting human health.     

Notch信号途径中的Su(H)和E(spl)基因对果蝇天然免疫的影响

天然免疫系统是多细胞生物抵抗各种入侵微生物的第一道防线.Notch途径介导相邻细胞之间的相互作用,调节细胞、组织、器官的分化和发育.为了进一步探索Notch信号途径在果蝇天然免疫中的功能,利用Notch途径下游基因Su(H)和E(spl)的低表达突变体果蝇,通过体外注射病原体分析了生存率、血细胞的噬菌功能和抗菌肽的表达量以及突变体的血细胞数量.结果表明,革兰氏阴性细菌和真菌感染后果蝇E(spl)突变体的生存率、噬菌能力及抗菌肽的表达量明显降低,而且幼虫期血细胞出现异常增殖;Su(H)突变体只对真菌表现出敏感性,抗菌肽的表达量降低,但是对真菌的噬菌能力正常.此结果表明,Notch途径不仅影响个体的生长发育,而且在果蝇天然免疫中也起重要的调节作用.     

A 31P NMR study of the interaction of amphibian antimicrobialpeptides with the membranes of live bacteria

Summary Amphibian skin is a rich source of peptides that are specific to pathogens and act by disrupting bacterial membranes. Three antimicrobial peptides were isolated from the skin glands of Australian tree frogs,Litoria caerulea andLitoria genimaculata. NMR spectroscopy was used to observe changes induced by these peptides in the³¹P resonances of bacterial membranes in vivo. Caerin 1.1 and maculatin 1.1, both wide-spectrum antibiotics disrupted the membranes ofBacillus cereus andStaphylococcus epidermidis (Gram-positive), leading to an increase in the isotropic³¹P NMR signal. Caerin 4.1, a narrow-spectrum antibiotic, however, did not affect the³¹P spectra of these organisms. The results demonstrate the use of³¹P NMR to study the effects of membrane-disrupting agents on the membranes of live bacteria.     

Staphylococcus epidermidis role in the skin microenvironment

Wound healing is a complex dynamic physiological process in response to cutaneous destructive stimuli that aims to restore the cutaneous’ barrier role. Deciphering the underlying mechanistic details that contribute to wound healing will create novel therapeutic strategies for skin repair. Recently, by using state‐of‐the‐art technologies, it was revealed that the cutaneous microbiota interact with skin immune cells. Strikingly, commensal Staphylococcus epidermidis‐induced CD8+ T cells induce re‐epithelization of the skin after injury, accelerating wound closure. From a drug development perspective, the microbiota may provide new therapeutic candidate molecules to accelerate skin healing. Here, we summarize and evaluate recent advances in the understanding of the microbiota in the skin microenvironment.