Endothelial cell class II major histocompatibility complex molecule expression in stereotactic brain biopsies of patients with acute inflammatory/demyelinating conditions.

To determine if central nervous system (CNS) microvessel endothelial cells express class II major histocompatibility complex (MHC) molecules in early demyelinating lesions in humans, cerebral white matter (WM) biopsies from patients with acute inflammatory/demyelinating conditions, including 4 with multiple sclerosis (MS), were immunostained for class II MHC and other antigens. Eight of 9 biopsies showed focal MHC class II-positive endothelial cells; there were none in the CNS of 1 of the MS patients at autopsy. There were more vessels with class II-positive endothelial cells in areas with intact WM and gliosis than in areas with active demyelination or control WM; class II-positive endothelial cells in small venules and capillaries were adjacent to transmigrating and perivascular CD4-positive cells. By immunoelectron microscopy, class II molecules were localized to vesicles in endothelial cell cytoplasm, suggesting the potential for antigen processing. Perivascular cells, parenchymal microglia, mononuclear cells and the perinuclear cytoplasm but not the processes of astrocytes were also class II-positive. These data indicate that in acute CNS inflammatory/demyelinating lesions, endothelial cells focally and apparently transiently express class II MHC molecules. This expression implies potential antigen-specific interactions, immunoregulatory or signalling functions in endothelial cells, or it may render them susceptible to CD4-positive cell-mediated cytotoxicity. Thus, class II-positive endothelial cells may have pivotal immunologic roles in initial stages of T cell responses in human CNS WM, particularly in acute MS lesions.

Endothelial cell integrin laminin receptor expression in multiple sclerosis lesions.

Laminin, a major glycoprotein component of vessel basement membranes, is recognized by beta1- and beta3-integrins expressed on endothelial cells. To determine how endothelial cell integrins might function in multiple sclerosis (MS) lesions, integrin laminin receptors and laminin were analyzed in central nervous system samples from MS patients and controls by immunohistochemistry. In active MS lesions, endothelial cell VLA-6 and beta1 subunits were decreased compared to controls whereas alpha(v) subunit and VLA-1 were increased. In chronic inactive lesions beta1, VLA-6 and alpha(v) were the same as controls but VLA-1 remained increased. Alpha3 subunit was constant in all samples. By immunoelectron microscopy VLA-1, VLA-6, beta1, and laminin were distributed throughout endothelial cells; alpha(v) was adjacent to and on luminal surfaces; alpha(v) and VLA-1 were on intercellular junctions. These results indicate distinct regulation and functions of these integrins in different lesion stages. In active lesions decreased endothelial cell beta1/VLA-6 could result in their detachment from laminin thereby facilitating leukocyte transvascular migration and blood-brain barrier breakdown. Alpha(v) and VLA-1 on intercellular junctions may participate in re-establishing vessel integrity after leukocyte migration. Luminal surface alpha(v) also likely binds intraluminal ligands and cells. In chronic inactive plaques persistently elevated endothelial cell VLA-1 correlates with long-standing endothelial cell and blood-brain barrier dysfunction.

Pasteurella multocida produces a protein with homology to the P6 outer membrane protein of Haemophilus influenzae.

An antibody specific for a 16-kDa outer membrane protein of a rabbit strain of Pasteurella multocida was used to probe representatives of all 16 somatic serotypes of P. multocida, as well as the vaccine strains CU and M9, and all were shown to express the protein. The gene encoding this protein was cloned and sequenced and found to have extensive sequence homology with the gene encoding the P6 protein of Haemophilus influenzae. The protein in P. multocida has been designated P6-like. The gene encoding the P6-like protein was used to probe members of the family Pasteurellaceae and other gram-negative bacteria. Representatives of all 16 somatic serotypes (as well as the vaccine strains CU and M9) of P. multocida hybridized with the P6-like gene under conditions of high stringency. The DNA from H. influenzae hybridized weakly with the P6-like gene under these conditions, but Pasteurella haemolytica (representatives of A and T biotypes), Bordetella bronchiseptica, B. avium, Actinobacillus suis, A. suis-like, A. lignieresii, A. ureae, A. rossii, A. pleuropneumoniae, A. equuli, and various members of the family Enterobacteriaceae (Escherichia coli, Klebsiella pneumoniae, and Salmonella typhimurium) did not hybridize detectably. Under conditions of lower stringency, the P6-like gene also hybridized strongly with DNA from P. multocida, H. influenzae, and A. rossii but weakly with DNA from P. haemolytica and members of the genus Actinobacillus. These results suggest that the P6-like protein of P. multocida might be useful as an immunizing product to protect poultry from avian cholera. This suggestion stems from (i) our finding that the P6-like protein in P. multocida is widely distributed among all the somatic serotypes and (ii) the previous work of others demonstrating that the P6 protein of H. influenzae elicits a protective immune response in animal models of human disease.

Vitronectin and integrin vitronectin receptor localization in multiple sclerosis lesions.

Vitronectin (Vn) is a multifunctional plasma and extracellular matrix glycoprotein involved in cell attachment, coagulation, phagocytosis, and the protection of bystander cells from complement- and T cell-mediated lysis. To determine where Vn is localized and where cells expressing integrin Vn receptors may recognize it in central nervous system (CNS) lesions of multiple sclerosis (MS), CNS tissue samples were immunostained for Vn and the alphav, beta 1, and beta 3 integrin Vn receptor subunits. By light and electron microscopy, Vn was localized within dystrophic, demyelinated axons in active but not chronic lesions, normal or other neurologic disease controls. This localization is distinct from that of other plasma proteins in MS lesions and it differs from the pattern of neuron cell body localization found in other conditions. Microvascular Vn was increased and small numbers of reactive astrocytes were also Vn-positive in active plaques. Endothelial cell expression of the alpha v subunit was increased over controls and that of the beta 1 subunit was decreased whereas both the alpha v and beta 1 subunits were prominently expressed on macrophages and glia in active lesions. The beta 3 integrin subunit was expressed on platelets within and around vessels and was more prominent on endothelial cells in active plaques. The precise functions of Vn in situ are not presently known. These results indicate, however, that the regulation of expression of integrin Vn receptors is complex and that Vn may be recognized and have multiple functions in different microanatomic sites as MS lesions evolve. Intravascular Vn could participate in clotting, thereby contributing to leukocyte extravasation.(ABSTRACT TRUNCATED AT 250 WORDS)

Q pili enhance the attachment of Moraxella bovis to bovine corneas in vitro.

Moraxella bovis, the causative agent of infectious bovine keratoconjunctivitis, exhibits several virulence factors, including pili, haemolysin, leukotoxin, and proteases. The pili are filamentous appendages which mediate bacterial adherence. Prior studies have shown that Q-piliated M. bovis Epp63 are more infectious and more pathogenic than I-piliated and non-piliated isogenic variants, suggesting that Q pili per se, or traits associated with Q-pilin expression, promote the early association of Q-piliated bacteria with bovine corneal tissue. In order to better evaluate the role of Q pili in M. bovis attachment, several M. bovis strains and a recombinant P. aeruginosa strain which elaborates M. bovis Q pili but not P. aeruginosa PAK pili, were evaluated using an in vitro corneal attachment assay. For each strain tested, piliated organisms attached better than non-piliated bacteria. M. bovis Epp63 Q-piliated bacteria adhered better than either the I-piliated or non-piliated isogenic variants. Finally, recombinant P. aeruginosa organisms elaborating M. bovis Q pili adhered better than the parent P. aeruginosa strain which did not produce M. bovis pili. These results indicate that the presence of pili, especially Q pili, enhances the attachment of bacteria to bovine cornea in vitro.