牙龈卟啉单胞菌血凝素2与氯化血红素结合位点分析

目的 通过竞争性ELISA方法明确牙龈卟啉单胞菌血凝素2(Porphyromonas gingivalis hemagglutinin-2,Pg HA-2)与氯化血红素结合的多肽位点,为牙周病保护性抗体的制备奠定基础.方法 人工合成疑为Pg HA-2氯化血红素结合位点的多肽片段,制备抗Pg HA-2单克隆抗体(MAb QB),通过间接竞争性ELISA,进一步分析血红素特异性结合位点.结果 Pg HA-2氯化血红素结合位点的氨基酸序列为DGFPGDHYAVMISK.MAb QB可以抑制Pg HA-2与氯化血红素结合.结论 明确了Pg HA-2氯化血红素结合位点的氨基酸序列,确定了Pg HA-2氯化血红素结合位点的位置.为今后Pg HA-2氯化血红素结合位点的鉴定、功能结构区分析和多肽疫苗的制备奠定基础.     

多肽内切酶鉴定牙龈卟啉单胞菌血凝素2结合位点

目的利用多肽内切酶分析牙龈卟啉单胞菌凝血素2(Porphyromonas gingivalishemagglutinin-2,PgHA-2)与氯化血红素结合位点的氨基酸序列。方法Endoproteinase Lys-C多肽内切酶水解获得与氯化血红素结合的功能性的多肽片段,质谱技术鉴定多肽片段的氨基酸序列。结果质谱鉴定与氯化血红素结合的多肽片段的氨基酸序列为YAVNDGFPGDHYAVMISK。结论进一步明确了HA-2与氯化血红素结合位点的氨基酸序列,为牙周病的预防和治疗方法的改进奠定基础。     

抗牙龈卟啉单胞菌血凝素2单克隆抗体的制备

目的制备抗牙龈卟啉单胞菌(Porphyromonas gingivalis,Pg)血凝素2(hemagglutinin-2,HA-2)的单克隆抗体(monoclonal antibody,mAb)。方法用重组HA-2(recombinant HA-2,rHA-2)免疫BALB/C小鼠,取其脾细胞与小鼠骨髓瘤细胞SP2/0融合,间接ELISA方法筛选杂交瘤细胞.用ELISA方法测效价。结果获得1株能够高效识别rHA-2的mAb,命名为4F11。此单克隆抗体的免疫球蛋白亚类为IgG1,效价达1?106。结论成功制备了重组牙龈卟啉单胞菌血凝素2的单克隆抗体mAb.将进一步用于牙龈卟啉单胞菌的诊断,并为牙周疾病的治疗研究奠定基础。     

天然药物对牙龈卟啉单胞菌的体外抗菌研究

目的 观察天然药物对牙龈卟啉单胞菌（Porphyromonas gingivalis,P.gingivalis）生长的影响,筛选抗菌作用最强的天然药物。方法 选用7种天然药物,采用液体稀释法,结合吸光度测定以确定7种天然药物对P.gingivalis的最小抑菌浓度（MIC）与最小杀菌浓度（MBC）。结果 黄芩、三七、白芷、大黄、五倍子、血藤和川芎对P.gingivalis的MIC值分别为1、1、0.5、0.0156、1、0.5、0.125 mg/ml;MBC值分别为1、1、0.5、0.0625、1、1、0.25mg/ml。结论 7种天然药物对P.gingivalis的生长均表现出明显的抑制作用,大黄的抑菌作用最强,川芎其次。     

多肽免疫抑制牙龈卟啉单胞菌引起的小鼠感染及牙槽骨吸收作用的研究

目的探讨牙龈卟啉单胞菌(Porphyromonasgingivalis,P.g)血凝素2(hemagglutinin-2,HA-2)的氯化血红素结合位点多肽作为抗原免疫小鼠,对降低P.g感染后毒性和抑制牙周炎牙槽骨吸收的作用。方法将多肽与牛血清白蛋白(Bovine serum albumin,BSA)偶联作为抗原免疫BALB/c小鼠。P.g国际标准菌株ATCC33277厌氧培养,皮下注射菌液,监测小鼠脓肿的大小及转归,评价多肽对P.g皮下感染的保护作用;口腔接种细菌感染小鼠,检测小鼠牙周炎牙槽骨吸收量,评价其对于P.g引起的牙周炎牙槽骨吸收的保护作用。结果多肽DGFPGDHYAVMISK作为抗原免疫小鼠可减小小鼠皮下接种P.g处形成脓肿的大小,并加快皮下脓肿的愈合;可抑制口腔感染P.g后小鼠牙周炎模型牙槽骨的吸收。结论多肽DGFPGDHYAVMISK免疫小鼠对P.g感染小鼠具有一定的保护作用;可减少小鼠牙周炎模型牙槽骨的吸收。为开发新的牙周病防治方法奠定基础。     

牙菌斑链球菌与牙龈卟啉单胞菌相互作用的研究

牙菌斑生物膜是牙周病最主要的致病因素。早期定植菌链球菌与晚期定植菌牙龈卟啉单胞菌(P.gingivalis)的相互作用复杂多样,而牙龈卟啉单胞菌是重要的牙周致病菌,本文就链球菌与牙龈卟啉单胞菌的相互作用作一综述。     

牙龈卟啉单胞菌酪氨酸激酶致病性的分子机制

目的 探讨牙龈卟啉单胞菌（Porphyromonas gingivalis,P. gingivalis）酪氨酸激酶（Ptk1)致病性的分子机制。方法 采用重组PCR技术构建P. gingivalis野生菌株ATCC 33277的Ptk1单基因缺失的突变菌株（ΔPtk1），通过Real-time PCR技术检测并比较参与调控P. gingivalis（野生型P. gingivalis ATCC 33277与突变型ΔPtk1）细胞外多糖（extracellular polysaccharides,EPS）合成的转录因子SinR的表达情况，同时采用激光共聚焦显微镜观察Ptk1缺失的突变菌株与野生型菌株EPS的形成情况，最后通过ELISA试剂盒检测并比较Ptk1缺失的突变菌株与野生型菌株白细胞介素-1β(IL-1β)表达情况。结果 与野生菌株P. gingivalis ATCC 33277比较，Ptk1单基因缺失的突变菌株转录因子SinR的表达量没有显著变化（t=–1.572,P>0.05）;ELISA检测发现，Ptk1单基因缺失的突变菌株IL-1β的表达量较野生型菌株显著下降，差异有统...     

牙龈卟啉单胞菌分子生物学研究进展

牙龈卟啉单胞菌已公认为是牙周炎的致病菌,它的一些表面结构诸如细胞外囊泡,菌毛,外膜蛋白,凝集素介导该菌对牙周组织粘附、定植,或作为毒性因子破坏牙周组织,随着分子生物学技术的发展,已对这些结构进行了分子克隆,本文拟就牙龈卟啉单胞菌(Porphyromonasgingivalis)简称Pg)分子生物学进展作一简要综述。1　菌毛基因的分子克隆牙龈卟啉单胞菌菌毛作为该菌表面结构之一介导了该菌对牙周组织的粘附和定植。已纯化了41kda菌毛亚单位蛋白,并克隆了菌毛蛋白基因[1]。使用寡核苷酸M1和M2作为引物,采用PCR从9株Pg菌株中扩增了1.3kb的DNA片段,E…     

牙龈卟啉单胞菌外膜囊泡与阿尔茨海默病的相关性研究进展

牙龈卟啉单胞菌(Porphyromonas gingivalis)是牙周炎的主要致病菌,在其生长过程中可产生大量毒力因子。P. gingivalis及其毒力因子不仅可引发牙周组织的破坏,还可扩散至全身并影响包括阿尔茨海默病(Alzheimer’s disease, AD)在内的多种系统疾病的发生、发展。P. gingivalis外膜囊泡包含亲本细菌的大量毒力因子且体积小,更易扩散至远处组织和器官。近期研究发现,P.gingivalis外膜囊泡可能在诱发神经炎症和促进AD的发生、发展中起重要作用,但具体机制尚不清楚。本文就P. gingivalis外膜囊泡的发生与调控、所含主要毒力因子及其与AD的关系进行综述,以阐明牙周炎与AD相关的生物学机制。     

兰州地区人群的牙周健康状况和牙龈卟啉单胞菌感染情况分析

目的了解兰州地区人群的牙周健康状况,检测牙周健康者及牙周疾病患者口腔唾液中牙龈卟啉单胞菌(Porphyromonas gingivalis,Pg)的阳性率,为兰州地区人群防治牙周疾病提供科学依据。方法收集942例唾液标本,采用常规厌氧培养法,挑取产黑色素菌落进行革兰染色与生化鉴定。结果兰州地区人群牙周疾病患病率为78.45%,男女性别间差异无统计学意义(P=0.655);农村人群(53.45%)高于城市人群(46.55%),差异有统计学意义(P=0.029);各年龄段差异有显著的统计学意义(P=0.001),随年龄增长患病率呈增长趋势。兰州地区人群唾液中Pg总阳性率为71.23%,牙周疾病组(82.22%)显著高于牙周健康组(27.57%),差异有显著的统计学意义(P=0.000)。结论兰州地区人群牙周健康状况与生活环境、年龄、性别有关;在不同的牙周健康状况人群中牙龈卟啉单胞菌的分布不同。     

牙龈卟啉单胞菌诱导T淋巴细胞活化、凋亡的体外研究

目的检测牙龈卟啉单胞菌对人外周血中T淋巴细胞活化及凋亡的作用,并检测Fas/FasL在牙龈卟啉单胞菌(Porphyrom onas gingivalis,Pg)诱导的T淋巴细胞凋亡中的表达。方法选取10例全身及牙周组织健康受试者,分离外周血中T淋巴细胞,在有/无Pg情况下培养0~96 h,用荧光探针(Annexin V-FITC、PI、CD69)及特殊的单克隆抗体(Fas、FasL)进行标记,并进行流式细胞仪检测。结果 CD69+淋巴细胞+Pg组Annexin V+/PI-细胞百分数在各个时间点上都明显高于T淋巴细胞+Pg组(P0.01)。Fas和FasL的表达量明显上调。用抗Fas单克隆抗体阻滞Fas-FasL相互作用导致T细胞凋亡的明显减少,百分比为(20.56±2.43)%,未加抗体的为(50.41±2.68)%。但残余的细胞凋亡活动与阴性对照相比仍高。结论 Pg能够诱导人外周血中T淋巴细胞活化,并且能够通过活化促进其凋亡,Pg诱导T淋巴细胞凋亡主要通过Fas-FasL途径,并具有时间依赖性。     

亚甲基蓝/光化学法辅助治疗慢性牙周炎对牙龈卟啉单胞菌的影响

目的研究亚甲基蓝/光化学法辅助治疗慢性牙周炎对牙龈卟啉单胞菌(Porphyromonas gingivalis,Pg)检出率的变化。方法经伦理委员会同意后,本研究拟筛选出45例慢性牙周炎患者(每位患者经过详细牙周检查及X线检查后确认为牙周炎,有4个以上≥5 mm的牙周袋并分布在2个以上口腔区域),随机分3组:其中A组在SRP之后接受1次PERIOWAVE光化学治疗,B组在SRP后接受1次PERIOWAVE治疗以及在6周后再一次接受光化学治疗,而SRP组仅接受SRP治疗,各组患者取治疗前后相同4个位点龈下菌斑,聚合酶链式反应(Poly-merase chain reaction,PCR)检测Pg,观察Pg菌的检出率,采用卡方检验,并计算χ2值。结果 SRP组、A组、B组3组各组治疗后均较治疗前检出率降低(P<0.001),A组与SRP组治疗后比较差异无统计学意义[A组:40%(24/60),SRP组:45%(27/60),χ2=1.4815,P>0.05],B组与SRP治疗后比较检出率降低[SRP组:45%(27/60),B组:20%(12/60)χ2=8.547,P<0.01];B组与A组治疗后比较检出率降低[A组:40%(24/60),B组:20%(12/60),χ2=5.7143,P<0.05]。结论亚甲基蓝/光化学法辅助治疗慢性牙周炎后牙龈卟啉单胞菌的检出率较治疗前降低;结合临床试验结果,尚可认为2次激光疗效较1次激光好。     

Effect of concentration of compounds containing iron on the growth of Porphyromonas gingivalis

Abstract We examined the effect of the concentration of various types of iron molecules on the regulation of growth of Porphyromonas gingivalis . Bacterial growth was monitored spectrophotometrically. The hemin-depleted cells of P. gingivalis 381 were incubated in the basal medium plus test substrates such as hemoglobin, hemin, transferrin and various inorganic iron compounds. The relationship between the specific growth rate of organisms and the concentration of iron-containing compounds was determined. The value of K _s, a parameter analogous to the Michaelis-Menten constant, was estimated. P . gingivalis 381 showed a K _ss value of 3.85, 4.91 and 0.0017 μM for hemin, transferrin and hemoglobin, respectively. However, the inorganic iron compounds tested did not support growth of P. gingivalis . These findings suggest that P. gingivalis utilizes hemoglobin as an iron source much more effectively than other iron-containing compounds under an iron-limited environment.     

A 35-kDa co-aggregation factor is a hemin binding protein in Porphyromonas gingivalis

It has been known that Porphyromonas gingivalis has an obligate requirement for hemin or selected heme- or Fe-containing compounds for its growth. In addition, the influence of hemin on the expression of several putative virulence factors produced by this bacterium has also been recently documented; however, the mechanisms involved in hemin uptake are poorly defined. We succeeded in cloning the gene coding for the 35-kDa protein, which was specifically expressed in P. gingivalis and seemed to confer colonizing activities. Recently, we have constructed the P. gingivalis 381 mutant defective in the 35-kDa protein by insertion mutagenesis. The beige mutant exhibited little co-aggregation and the virulence was also decreased. Based on these results and homology search analysis, we focused on assessing the hemin bindings and found the heme regulatory motif (HRM) as a hemin direct binding site. The 35-kDa protein did possess the binding ability of selected protoporphyrins involving the hemin. These results demonstrated that 35-kDa protein is one of the hemin binding proteins in P. gingivalis and suggested that hemin binding ability of 35-kDa protein is important for the expression of virulence in P. gingivalis.     

Roles of porphyrins and host iron transport proteins in regulation of growth of Porphyromonas gingivalis W50.

Porphyromonas gingivalis (Bacteroides gingivalis) requires iron in the form of hemin for growth and virulence in vitro, but the contributions of the porphyrin ring structure, porphyrin-associated iron, host hemin-sequestering molecules, and host iron-withholding proteins to its survival are unknown. Therefore, the effects of various porphyrins, host iron transport proteins, and inorganic iron sources on the growth of P. gingivalis W50 were examined to delineate the various types of iron molecules used for cellular metabolism. Cell envelope-associated hemin and iron stores contributed to the growth of P. gingivalis in hemin-free culture, and depletion of these endogenous reserves required eight serial transfers into hemin-free medium for total suppression of growth. Comparable growth of P. gingivalis was observed with 7.7 microM equivalents of hemin as hemoglobin (HGB), methemoglobin, myoglobin, hemin-saturated serum albumin, lactoperoxidase, cytochrome c, and catalase. Unrestricted growth was recorded in the presence of haptoglobin-HGB and hemopexin-hemin complexes, indicating that these host defense proteins do not sequester HGB and hemin from P. gingivalis. The iron chelator 2,2'-bipyridyl functionally chelated hemin-associated iron, resulting in dose-dependent inhibition of growth in hemin-restricted cultures at 1 to 25 microM 2,2'-bipyridyl concentrations. In the absence of an exogenous iron source, protoporphyrin IX did not support P. gingivalis growth. These findings suggest that the iron atom in the hemin molecule is the critical constituent for growth and that the tetrapyrrole porphyrin ring structure may represent an important vehicle for delivery of iron into the P. gingivalis cell. P. gingivalis does not have a strict requirement for porphyrins, since growth occurred with nonhemin iron sources, including high concentrations (200 muM) of ferric, ferrous, and nitrogenous inorganic iron, and P. gingivalis exhibited unrestricted growth in the presence of host transferrin, lactoferrin, and serum albumin. The diversity of iron substrates utilized by P. gingivalis and the observation that growth was not affected by the bacteriostatic effects of host iron-withholding proteins, which it may encounter in the periodontal pocket, may explain why P. gingivalis is such a formidable pathogen in the periodontal disease process.     

Proteomics-based analysis of a counter-oxidative stress system in Porphyromonas gingivalis

Porphyromonas gingivalis is a Gram-negative anaerobic pathogen associated with chronic periodontitis. Although anaerobic, P. gingivalis exhibits a high degree of aerotolerance, which enables it to survive within periodontal pockets. The aim of the present study was to examine the effect of oxidative stress on protein expression in P. gingivalis to obtain a better understanding of the mechanism underlying its aerotolerance. To accomplish this, P. gingivalis cells were grown under conditions of hemin limitation (0.01 microg/mL) to avoid the oxygen protective effect of hemin on oxidative stress. The proteins were then extracted from cultures either left untreated or subjected to oxidative stress and separated by 2-DE. The resultant protein expression profiles were examined by image scanning, and those found to differ depending on the presence or absence of aeration were subjected to MALDI-MS and then analyzed using the ORF database of P. gingivalis W83 from The Institute of Genomic Research. Oxidative stress was found to affect the expression of numerous proteins in P. gingivalis cells. In particular, the levels of HtpG, GroEL, DnaK, AhpC, TPR domain protein, and trigger factor were substantially increased.     

Signaling system in Porphyromonas gingivalis based on a LuxS protein

The luxS gene of quorum-sensing Vibrio harveyi is required for type 2 autoinducer production. We identified a Porphyromonas gingivalis open reading frame encoding a predicted peptide of 161 aa that shares 29% identity with the amino acid sequence of the LuxS protein of V. harveyi. Conditioned medium from a late-log-phase P. gingivalis culture induced the luciferase operon of V. harveyi, but that from a luxS insertional mutant did not. In P. gingivalis, the expression of luxS mRNA was environmentally controlled and varied according to the cell density and the osmolarity of the culture medium. In addition, differential display PCR showed that the inactivation of P. gingivalis luxS resulted in up-regulation of a hemin acquisition protein and an arginine-specific protease and reduced expression of a hemin-regulated protein, a TonB homologue, and an excinuclease. The data suggest that the luxS gene in P. gingivalis may function to control the expression of genes involved in the acquisition of hemin.