Role of human amniotic epithelial cell transplantation in spinal cord injury repair research

Human amniotic epithelial cells (HAEC) possess certain properties similar to that of neural and glial cells. In the present work, the potential of HAEC as stem cells for spinal cord injury repair was tested. HAEC obtained from human placenta were labeled with 1,1'-dioctadecyl-3,3,3',3'-tetramethyllindocarbocyanine perchlorate (Dil) in the culture medium. These labeled cells were transplanted into the transection cavities in the spinal cord of bonnet monkeys. Results were analyzed after 15 and 60 days of post-transplantation. HAEC cells survived in the monkey spinal cord for up to the maximum period of observation in the present study, i.e. 60 days. HAEC graft was penetrated by the host axons. There was no glial scar at the transection lesion site. Some of the host spinal neurons and axons were labeled with Dil (used to label HAEC) whereas in lesion control group, there was no such host-neuron labeling. This may be either due to the prevention of death in the axotomized neuron's ensuing lesion or due to the neurotrophic effect exhibited by the transplanted HAEC. Further studies would be required to verify these speculations. Therefore from this pilot study it appears that HAEC survive in the transplanted environment, support the growth of host axons through them, prevent the formation of glial scar at the cut ends and may prevent death in axotomized cells or attract the growth of new collateral sprouting. The abovementioned properties, i.e. serving as a suitable milieu for the host axons to grow, preventing glial scar at the lesion site and rescuing axotomized neurons from death were previously reported in the case of neural transplantation studies. Thus it is speculated that HAEC may be having certain properties equal to the beneficial effects of neural tissue in repairing spinal cord injury. Apart from this speculation, there are two more reasons for why HAEC transplantation studies are warranted to understand the long-term effects of such transplantations. First, there was no evidence of immunological rejection probably due to the non-antigenic nature of the HAEC. Second, unlike neural tissue, procurement of HAEC does not involve many legal or ethical problems.     

Role of beta 1 integrins in tumor cell adhesion to cultured human endothelial cells.

We investigated the effects of beta 1 integrins on tumor cell (TC) adhesion to unstimulated and interleukin-1 (IL-1) activated endothelial cells (EC). IL-1 treatment (20 units/ml for 6 hours) of cultured human umbilical vein EC significantly increased adhesion of seven human TC lines of different origin. A goat antiserum raised to purified alpha 5 beta 1 integrin abolished the IL-1 induced increment in adhesion of two osteosarcomas, one melanoma, one lung, and one kidney carcinoma, whereas it did not affect adhesion of two colon carcinoma cell lines. Further studies were performed on MG63 osteosarcoma cells. Adhesion of MG63 osteosarcoma cells to EC was dependent on time of EC treatment with IL-1: it was maximal at 12 hours and declined at 24 hours. alpha 5 beta 1 antiserum blocked IL-1 induced increase in MG63 adhesion at any time of EC treatment. This effect appears to be mainly directed to MG63 integrins since selective incubation of the antiserum with EC, but not with MG63, did not modify TC adhesion. Using a series of antibodies to different alpha and beta chains, we found that only monoclonal antibodies (mAb) to alpha 4, alpha 5, and beta 1 could inhibit MG63 adhesion to IL-1 activated EC, whereas alpha 2, alpha 6, and beta 3 antibodies were ineffective. Antibodies to fibronectin had very little activity on MG63 adhesion to EC matrix and did not significantly affect MG63 adhesion to control or IL-1 treated EC. Antibodies to alpha 4, alpha 5, and beta 1 were only partially effective in inhibiting MG63 adhesion to EC matrix. These data indicate that the capacity of alpha 4 beta 1 and alpha 5 beta 1 integrins to bind fibronectin contributed very little to MG63 adhesion to EC. The importance of beta 1 integrins in promoting a direct interaction between EC and MG63 was further shown by inhibition of rosette formation among these cells in suspension by the alpha 5 beta 1 antiserum. Only a VCAM-1/INCAM110 mAb, but not ELAM-1 or ICAM-1 mAbs, could inhibit MG63 adhesion to IL-1 activated EC. Overall these data indicate that at least two members of the beta 1 integrin subfamily (alpha 4 beta 1 and alpha 5 beta 1) are involved in MG63 adhesion to cytokine treated EC. This integrin function might be important at early stages of TC interaction with the vessel wall.     

Glucose homeostasis across human airway epithelial cell monolayers: role of diffusion, transport and metabolism

Glucose in airway surface liquid (ASL) is maintained at low concentrations compared to blood glucose. Using radiolabelled [³H]-d-glucose and [¹⁴C]-l-glucose, detection of d- and l-glucose by high-performance liquid chromatography and metabolites by nuclear magnetic resonance, we found that glucose applied to the basolateral side of H441 human airway epithelial cell monolayers at a physiological concentration (5 mM) crossed to the apical side by paracellular diffusion. Transepithelial resistance of the monolayer was inversely correlated with paracellular diffusion. Appearance of glucose in the apical compartment was reduced by uptake of glucose into the cell by basolateral and apical phloretin-sensitive GLUT transporters. Glucose taken up into the cell was metabolised to lactate which was then released, at least in part, across the apical membrane. We suggest that glucose transport through GLUT transporters and its subsequent metabolism in lung epithelial cells help to maintain low glucose concentrations in human ASL which is important for protecting the lung against infection.     

Role of MMP-2 in alveolar epithelial cell repair after bleomycin administration in rabbits

Matrix metalloproteinases (MMPs) have been implicated in the pathological processes of interstitial lung diseases. However, underlying mechanisms, particularly for activity levels and distribution of activated MMP-2 in the disease process, are yet to be elucidated. The present study investigated the immunolocalization of MMP-2, membrane type 1-matrix metalloproteinase (MT1-MMP), tissue inhibitor of metalloproteinase (TIMP)-2, p53, and Ki-67 in a rabbit model of bleomycin-induced pulmonary fibrosis. Gelatin zymography and in situ zymography were used to examine the activity and the localization of MMP-2. Furthermore, we performed Western blot and in situ hybridization for MT1-MMP, an activator for MMP-2. The total MMP-2 level estimated by gelatin zymography increased significantly at 3, 7, and 14 days after bleomycin administration, compared with controls. In the immunohistochemical study, immunoreaction for MMP-2 was strongest in alveolar epithelial cells among the cell populations. Swollen and/or elongated type II alveolar epithelial cells showed strong immunoreactions for MMP-2, MT1-MMP, and TIMP-2. After bleomycin administration, immunoreaction for p53 was observed in bronchiolar and alveolar epithelial cells. The proportion of p53-positive cells was high in epithelial cells from 1 to 14 days as MMP-2 levels were increased, suggesting that p53 may be responsible, at least in part, for the increase of MMP-2. The ratio of activated MMP-2 to total MMP-2 estimated by gelatin zymography increased significantly at 3, 7, 14, and 28 days after bleomycin treatment. In situ zymography revealed that type II alveolar epithelial cells degraded gelatin. An increased expression of MT1-MMP protein was observed by Western blot following administration of bleomycin. In situ hybridization demonstrated that type II alveolar epithelial cells gave intense signal for MT1-MMP mRNA. These results suggest that type II alveolar epithelial cells express MT1-MMP and activate MMP-2 on their cell surfaces, which may lead to the elongation and migration of alveolar epithelial cells in the repair process of bleomycin-induced pulmonary fibrosis.     

Alteration of pulmonary neuroendocrine cells during epithelial repair of naphthalene-induced airway injury

Whole-mount airway preparations isolated from the lungs of mice treated by intraperitoneal injection of naphthalene and allowed to recover for 5 days were examined for the distribution and abundance of solitary pulmonary neuroendocrine cells (PNECs) and neuroepithelial bodies (NEBs) along the main axial pathway of the right middle lobe. Sham mice treated with corn oil vehicle were examined in a similar manner. An antibody to calcitonin gene-related peptide, a neuroendocrine cell marker, was used to identify the location, size, and number of PNECs and NEBs in the airways. After naphthalene treatment and epithelial repair, NEBs were significantly increased along the walls of the airways as well as on branch point ridges. The surface area covered by NEBs composed of 20 or fewer PNECs was significantly enlarged after naphthalene treatment compared with control NEBs of an equivalent cell number. The PNEC number per square millimeter was also increased more than threefold above control values after naphthalene treatment. These findings provide further support for a key role of neuroendocrine cells in the reparative process of airway epithelial cell renewal after injury.     

Expression of epithelial adhesion proteins and integrins in chronic inflammation.

Epithelial cell behavior in chronic inflammation is poorly characterized. During inflammation of tooth-supporting structures (periodontal disease), increased proliferation of epithelial cells into the inflamed connective tissue stroma is commonly seen. In some areas ulceration and degeneration take place. We studied alterations in the expression of adhesion molecules and integrins during chronic periodontal inflammation. In inflamed tissue, laminin-1 and type IV collagen were still present in the basement membrane and surrounding blood vessels, but they were also found extravascularly in inflamed connective tissue stroma. Type VII collagen and laminin-5 (also known as kalinin, epiligrin, or nicein) were poorly preserved in the basement membrane zone, but both were found in unusual streak-like distributions in the subepithelial connective tissue stroma in inflamed tissue. Both fibronectin and tenascin were substantially decreased in chronically inflamed connective tissue, showing only punctate staining at the basement membrane zone. Integrins of the beta 1 family showed two distinct staining patterns in epithelial cells during chronic inflammation; focal losses of beta 1 integrins (alpha 2 beta 1 and alpha 3 beta 1) were found in most areas, while in other areas the entire pocket epithelium was found to be strongly positive for beta 1 integrins. No members of the alpha v integrin family were found in any epithelia studied. Expression of the alpha 6 beta 4 integrin was high in basal cells of healthy tissue, but weak in epithelium associated with chronic inflammation. Chronic inflammation therefore involves alterations in both adhesion proteins and integrins expressed by epithelial cells. Basement membrane components found at abnormal sites in stroma in chronic inflammation might serve as new adhesive ligands for various cell types in inflamed stroma.     

Effects of the very late adhesion molecule 4 antagonist WAY103 on human peripheral blood eosinophil vascular cell adhesion molecule 1-dependent functions

BACKGROUND: Eosinophil infiltration to the lung in allergic inflammation can be initiated by the tethering of circulating cells through very late adhesion molecule 4 (VLA-4; alpha4beta1, CD49d/CD29) to vascular cell adhesion molecule 1 (VCAM-1) expressed on pulmonary vascular endothelium. Small-molecule VLA-4 antagonists have been proposed as a therapeutic mechanism to prevent eosinophil infiltration in asthma; however, they might affect other eosinophil functions. OBJECTIVE: The small-molecule VLA-4 antagonist (2S)-3-(4-Dimethylcarbamoyloxyphenyl)-2-{[(4R)-5,5-dimethyl-3-(1-methyl-1H-pyrazole-4 sulfonyl)thiazolidine-4-carbonyl]amino}propionic acid (WAY103) was assessed for its effects on eosinophil VLA-4-dependent functions, including adhesion, migration, respiratory burst, and degranulation. METHODS: Human peripheral blood eosinophils were preincubated with WAY103, anti-alpha4, and/or anti-beta2 integrin mAbs and then assessed for adhesion to recombinant VCAM-1, intercellular adhesion molecule 1, and endothelial cell monolayers. Transmigration was measured by using human pulmonary microvascular endothelial cell monolayers and Transwell filters. Superoxide anion generation was determined by means of cytochrome C reduction and degranulation by means of eosinophil-derived neurotoxin release. RESULTS: WAY103 inhibition of eosinophil adhesion to recombinant VCAM-1 was dose dependent (63% inhibition with 100 nM WAY103, P < .04) and comparable with inhibition caused by anti-alpha4 mAb (60.1% inhibition). Although pretreatment with WAY103 also decreased eosinophil adhesion to TNF-alpha plus IL-4-activated human pulmonary microvascular endothelial cell monolayers, it did not prevent eosinophil transendothelial migration in response to RANTES. Finally, WAY103 inhibited VCAM-1-stimulated superoxide generation but enhanced cytokine-activated eosinophil-derived neurotoxin degranulation. CONCLUSION: Although small-molecule VLA-4 antagonists, such as WAY103, might reduce eosinophil adhesion, this approach might not be sufficient to eliminate this cell from in vivo allergic airway inflammatory participation and could even promote specific cell activation.     

Role of differential and cell type-specific expression of cell cycle regulatory proteins in mediating progressive glomerular injury in human IgA nephropathy

The activities of cell cycle regulatory proteins have been reported to be associated with the development of pathological lesions in glomerulonephritis. To assess the cellular mechanisms underlying the mesangial cell proliferation and glomerulosclerosis in progressive human IgA nephropathy (IgAN), we examined the expression of E2F1, Rb, c-Myc, proliferating cell nuclear antigen (PCNA), cyclins (D1, E and A), cyclin-dependent kinase 2 (CDK2) and CDK inhibitors (p21(waf1), p27(kip1), 57(kip2) and p16(ink4a)) by immunohistochemistry in renal biopsy specimens. Terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) was also performed to detect the presence of apoptosis. In total, 51 cases of IgAN were categorized into four subgroups according to histological severity. A dramatic upregulation of E2F1 expression in mesangial cells was identified in proliferating glomeruli, which correlated well with the proliferation index. High endogenous expression of p27(kip1) and p57(kip2) by podocytes in normal glomeruli and glomeruli with minor lesions was observed to decrease in proliferating and sclerosing glomeruli; this pattern displayed a strong inverse correlation with the mean glomerulosclerosis score and the index of glomerular lesion. Increased apoptotic activity was identified in progressive glomerular lesions of advanced IgAN, which correlated with the proliferative activity in these lesions as assessed by total expression levels of PCNA and CDK2 in glomeruli, E2F1 expression levels in the mesangium, cyclin D1 expression levels in endothelium and the c-Myc glomerular staining score. Our results suggest that the onset and magnitude of mesangial cell proliferation and glomerulosclerosis is associated with the upregulation of E2F1 by mesangial cells and the downregulation of p27(kip1) and p57(kip2) by glomerular epithelial cells. The cell type-specific and coordinated regulation of proliferative and proapoptotic activities of cell cycle regulatory proteins may play an important role in mediating progressive glomerular injury in human IgAN.     

Role of endothelial injury in disease mechanisms and contribution of progenitor cells in mediating endothelial repair

Recent research on the endothelium demonstrates complex interactions of endothelial cells with circulating immune cells, mediators such as cytokines, hormones and growth factors, and with the underlying parenchymal cells. These disparate interactions are involved in promotion of vascular development; maintenance of tissue homeostasis; and regulation of vascular repair. Injury to the endothelial monolayer is the sine qua non of organ dysfunction with endothelial repair the necessary first step needed for recovery. Thus, the capacity of the endothelium to regenerate itself is a key determinant of organ repair and survival after injury. Using the example of the lung, we will review the current state of knowledge regarding the importance of endothelium in the above mentioned processes with a focus on the role of stem cells, both endogenous (i.e., localized within the vessel wall) as well as exogenous (i.e., arriving in the vessel wall from distant sites such as the bone marrow) in promoting endothelial repair and regeneration. The subject of endothelial regeneration and the ways in which stem and progenitor cells contribute to this process has promise in treating vascular diseases. As we will highlight in this review, some questions have been addressed but many more remain and need to be addressed before cell-based therapies become a viable option.     

Stress-activated protein kinases mediate cell migration in human airway epithelial cells

Airway epithelial cell (AEC) repair immediately after injury requires coordinated cell spreading and migration at the site of injury. Stress-activated protein kinases such as p38 MAPK and c-Jun N-terminal Protein Kinase (JNK) modulate several responses to cell stress and injury, but their role in AEC migration is not clear. We examined migration in confluent 16HBE14o(-) human AEC lines and in primary AEC grown on collagen-IV. Wounds were created by mechanical abrasion and followed to closure using digital microscopy. Inhibitors of either p38 extracellular signal-regulated kinase (ERK)1/2 (PD98059), mitogen-activated protein kinase (MAPK) (SB203580), or JNK (SP600125) could block cell migration substantially. Inhibiting JNK but not p38 MAPK or ERK1/2 blocked extension of cells into the wound region from the original line of injury. Initial migration was associated with phosphorylation of ERK, p38 MAPK, and JNK within 5-15 min. The downstream effector of p38, heat shock protein 27, also was phosphorylated rapidly after injury; phosphorylation could be blocked by prior treatment with SB203580 but not SP600125. The downstream effector of JNK, c-Jun, likewise was phosphorylated rapidly after injury and could be blocked by inhibiting JNK. Our data demonstrate that p38 MAPK, JNK, and ERK1/2 participate in the early stages of AEC migration.     

溴芬酸钠对紫外线诱导的人晶状体上皮细胞损伤的修复作用

目的 观察不同浓度溴芬酸钠对紫外线诱导的人晶状体上皮细胞损伤的修复作用,比较前列腺素E2及环氧化酶-1,环氧化酶-2的mRNA以及蛋白表达变化.方法 采用不同时长的紫外线照射处理人晶状体上皮细胞,MTT法检测细胞活性变化;UV照射30s,溴芬酸钠(80 μg/ml)作用紫外线诱导的人晶状体上皮细胞,MTT法检测细胞活性的改变,ELISA法检测细胞上清液中前列腺素E2的浓度,使用RT-qPCR检测COX-1、COX-2mRNA的表达,Western blot检测COX-1、COX-2蛋白表达量.结果 随着紫外线照射时间的延长,人晶状体上皮细胞活性下降,上清液中前列腺素E2的浓度增加.溴芬酸钠处理后,细胞活性显著上升,上清液中前列腺素E2的生成下降,抑制前列腺素E2生成的程度与溴芬酸钠浓度呈正相关.紫外线照射可引起人晶状体上皮细胞中COX-2 mRNA及蛋白的增加,溴芬酸钠选择性抑制COX-2 mRNA及蛋白的生成.结论 溴芬酸钠抑制紫外线对人晶状体上皮细胞的氧化损伤,与选择性抑制环氧化酶-2和减少前列腺素E2生成相关.     

Biologic and mechanical aspects of tendon fibrosis after injury and repair

ABSTRACT

Tendon injuries of the hand that require surgical repair often heal with excess scarring and adhesions to adjacent tissues. This can compromise the natural gliding mechanics of the flexor tendons in particular, which operate within a fibro-osseous tunnel system similar to a set of pulleys. Even combining the finest suture repair techniques with optimal hand therapy protocols cannot ensure predictable restoration of hand function in these cases. To date, the majority of research regarding tendon injuries has revolved around the mechanical aspects of the surgical repair (i.e. suture techniques) and postoperative rehabilitation. The central principles of treatment gleaned from this literature include using a combination of core and epitendinous sutures during repair and initiating motion early on in hand therapy to improve tensile strength and limit adhesion formation. However, it is likely that the best clinical solution will utilize optimal biological modulation of the healing response in addition to these core strategies and, recently, the research in this area has expanded considerably. While there are no proven additive biological agents that can be used in clinical practice currently, in this review, we analyze the recent literature surrounding cytokine modulation, gene and cell-based therapies, and tissue engineering, which may ultimately lead to improved clinical outcomes following tendon injury in the future.     

Induction of ICAM-1 expression on human airway epithelial cells by inflammatory cytokines: effects on neutrophil-epithelial cell adhesion.

Inflammation of the human airways in diseases such as chronic bronchitis, cystic fibrosis with Pseudomonas endobronchial infection, and possibly asthma during late-phase reactions involves a local influx of neutrophils (PMN) that may participate in airway epithelial injury. PMN-mediated cellular injury is most efficient under conditions of PMN-target cell adhesion. PMN express adhesive glycoproteins of the CD11/CD18 family that are counter-receptors for intercellular adhesion molecule-1 (ICAM-1), found on various cell types. We proposed that adherence by PMN to human airway epithelial cells via ICAM-1 might be an important mechanism in inflammatory airway diseases. We found that although PMN adhere poorly (less than 5%) to monolayers of human tracheal epithelial cells (TEC) in primary culture, they adhere readily (45 to 50%) to an SV40-immortalized line of human TEC, designated 9HTEo-. We also found 6-fold greater surface expression of ICAM-1 on 9HTEo- compared with primary TEC. Blocking surface ICAM-1 on 9HTEo- cells with specific monoclonal antibody inhibited PMN adherence by about 50%. Thus, ICAM-1 plays a major role in this adherence, although it is possible that other epithelial ligands contribute also. Antibodies to CD11a, CD11b, and CD18 on PMN also inhibited PMN-epithelial adherence. Treatment of primary TEC monolayers with the proinflammatory cytokines interleukin-1 (IL-1) or tumor necrosis factor-alpha (TNF-alpha) caused a 3- to 4-fold increase in both cell surface ICAM-1 expression and support of PMN adhesion.(ABSTRACT TRUNCATED AT 250 WORDS)     

人羊膜上皮细胞移植修复兔臂丛神经损伤

背景：目前人们把目光多集中在干细胞修复脊髓损伤方面,而对于干细胞移植治疗周围神经损伤的研究却不多,尤其人羊膜上皮细胞修复治疗周围神经损伤的研究和报道更少。 目的：探讨人羊膜上皮细胞对臂丛神经的修复作用。 方法：应用测力神经根拉钩水平牵拉臂丛神经根的方法制备大白兔臂丛损伤模型,提取人羊膜上皮细胞并扩增培养,扫描电子显微镜下观察人羊膜组织及羊膜上皮细胞的超微结构,人羊膜上皮细胞转染绿色荧光蛋白标记并注射入臂丛神经损伤区,苏木精-伊红染色及荧光显微镜观察羊膜上皮细胞对兔臂丛神经损伤的修复作用。 结果与结论：①分离得到的人羊膜上皮细胞表达上皮细胞标志物角蛋白CK19,不表达间充质细胞标志物波形蛋白,不同程度表达CD29,CD73。扫描电子显微镜观察到人羊膜上皮细胞胞体饱满,连接紧密,细胞状态良好。②人羊膜上皮细胞移植到新西兰大白兔臂丛神经损伤模型后18周,免疫荧光检测到神经损伤区可见有表达绿色荧光蛋白的羊膜上皮细胞。③术后6周实验组大白兔前爪功能开始恢复,术后12,18周实验组大白兔前爪功能得到明显改善,功能评分明显提高,对照组几乎没有恢复。以上结果可见人羊膜上皮细胞参与了臂丛神经损伤的修复。 中国组织工程研究杂志出版内容重点：肾移植;肝移植;移植;心脏移植;组织移植;皮肤移植;皮瓣移植;血管移植;器官移植;组织工程全文链接：     

Role of apoptosis signal-regulating kinase 1 in complement-mediated glomerular epithelial cell injury

In the rat passive Heymann nephritis (PHN) model of membranous nephropathy, complement C5b-9 activates protein kinases in glomerular epithelial cells (GEC), and induces sublethal GEC injury and proteinuria. Complement induces production of reactive oxygen species (ROS) via the NAPDH oxidase, and stimulates phosphorylation of c-Jun N-terminal kinase (JNK) and p38 kinase in a ROS-dependent manner. In the present study, we demonstrate that apoptosis signal-regulating kinase 1 (ASK1) was activated in glomeruli of rats with PHN, and that incubation of GEC in culture with antibody and sublytic C5b-9 stimulated ASK1 activity. The latter was, in part, mediated via the NADPH oxidase and ROS. Sublytic complement induced JNK and p38 phosphorylation, which was amplified in GEC that stably overexpress ASK1, as compared with Neo (control) GEC. Complement-induced lysis was enhanced in GEC that overexpress ASK1, as compared with Neo, and was attenuated in GEC that overexpress a dominant negative ASK1 mutant. Inhibition of p38, but not JNK, attenuated complement lysis in GEC that overexpress ASK1, but not in Neo GEC. In Neo GEC, generation of ROS restricted complement-mediated GEC injury but the protective effect of ROS was lost when ASK1 was overexpressed. We propose that the level of ASK1 expression determines the functional effect of p38 activation, i.e. when ASK1 is overexpressed, p38 activation is amplified, and C5b-9 assembly leads to GEC injury via ASK1 and p38. The present study thus defines a novel role for ASK1 as a mediator of C5b-9-dependent cell injury.     

Role of pili in adhesion of Pseudomonas aeruginosa to human respiratory epithelial cells.

The ability of pili from Pseudomonas aeruginosa K (PAK) to act as an adhesin to human respiratory epithelial cells was examined using an in vitro adhesion assay. Equilibrium analysis of PAK binding to human buccal epithelial cells (BECs) and tracheal epithelial cells (TECs) by means of a Langmuir adsorption isotherm revealed that the maximum numbers of binding sites per epithelial cell (N) were 255 for BECs and 236 for TECs, with apparent association constants (Ka) of 2.8 x 10(-9) and 5.8 x 10(-9) ml/CFU, respectively. Trypsinization of the BECs before the binding assay increased N to 605 and decreased the Ka to 1.7 x 10(-9) ml/CFU. Addition of homologous pili to the binding assay with BECs or TECs or the addition of anti-pilus Fab fragments inhibited PAK adherence. Binding of purified pili to BECs was shown to reach saturation. Purified pili and PAK competed for the same receptor on the BEC surface. Further, by using peptide fragments of PAK pilin (derived from the native pili or produced synthetically) in the binding assay for PAK to BECs, we have presumptively identified the pilus binding domain in the C-terminal region of the pilin and shown that the C-terminal disulfide bridge is important in maintaining the functionality of the binding domain.