Abstract We studied the interactions between human neutrophils, as well as the purified human neutrophil serine proteases elastase (HNE) and cathepsin G (HNCG), and laminin. Our results show that intact laminin and two proteolytic fragments generated by HNE bind to neutrophils and stimulate cell migration. Domain- specific antilaminin monoclonal antibodies, rotary shadowing electron microscopy, and Western blotting mapped the two promigratory fragments on the laminin cross to the apical three-armed region and long arm, respectively. In contrast, a fragment derived from the terminal ends of short arms neither bound to neutrophils nor stimulated migration. When neutrophils embedded in a reconstituted basement membrane gel were activated with phorbol myristate acetate, several stable, proteolytic laminin fragments were released into supernatants. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting showed that these fragments appeared identical to those generated after digestion of soluble laminin with HNE and HNCG. Furthermore, release of laminin fragments by embedded neutrophils was inhibited by diisopropyl fluorophos- phate, and duplicated by incubating the basement membrane gel with purified HNE and HNCG. Our findings therefore suggest that neutrophils, through release of HNE and HNCG, are capable of digesting basement membrane laminin in vivo. In addition, the release of laminin fragments from damaged basement membranes may promote neutrophil migration and thereby accelerate inflammatory processes. J. Leukoc. Biol. 53: 354–365; 1993.
The indirect immunofluorescent technique was used to localize a proteinase inhibitor isolated from murine seminal vesicles. The inhibitor was found in the lumen and in the apical epithelium of the seminal vesicle but not in the testes, epididymides, ductus deferens or Cowper’s glands. It was also associated with the anterior acrosomal region of ejaculated sperm and sperm recovered from the female tract within 5 min of coitus. The inhibitor is removed from uterine sperm between 2 to 4 h postcoitus, however sperm recovered from the uterus 2 h postcoitus will rebind inhibitor. The inhibitor is not normally associated with epididymal or ductus sperm although these sperm will bind purified inhibitor in vitro.
Eye disease is one of the primary medical conditions that requires attention and therapeutic intervention in ageing populations worldwide. Further, the global burden of diabetes and obesity, along with heart disease, all lead to secondary manifestations of ophthalmic distress. Therefore, there is increased interest in developing innovative new approaches that target various mechanisms and sequelae driving conditions that result in adverse vision. The research challenge is even greater given that the terrain of eye diseases is difficult to landscape into a single therapeutic theme. This report addresses the burden of eye disease due to mitochondrial dysfunction, including antioxidant, autophagic, epigenetic, mitophagic, and other cellular processes that modulate the biomedical end result. In this light, we single out lipoic acid as a potent known natural activator of these pathways, along with alternative and potentially more effective conjugates, which together harness the necessary potency, specificity, and biodistribution parameters required for improved therapeutic outcomes.
The location of the epitopes for monoclonal antibodies against chicken type IV and type V collagens were directly determined in the electron microscope after rotary shadowing of antibody/collagen mixtures. Three monoclonal antibodies against type IV collagen were examined, each one of which was previously demonstrated to be specific for only one of the three pepsin-resistant fragments of the molecule. The three native fragments were designated (F1)2F2, F3, and 7S, and the antibodies that specifically recognize each fragment were called, respectively, IA8 , IIB12 , and ID2 . By electron microscopy, monoclonal antibody IA8 recognized an epitope located in the center of fragment (F1)2F2 and in tetramers of type IV collagen at a distance of 288 nm from the 7S domain, the region of overlap of four type IV molecules. Monoclonal antibody IIB12 , in contrast, recognized an epitope located only 73 nm from the 7S domain. This result therefore provides direct visual evidence that the F3 fragment is located closest to the 7S domain and the order of the fragments must be 7S-F3-(F1)2F2. The epitope for antibody ID2 was located in the overlap region of the 7S domain, and often several antibody molecules were observed to binding to a single 7S domain. The high frequency with which antibody molecules were observed to bind to fragments of type IV collagen suggests that there is a single population of type IV molecules of chain organization [alpha 1(IV)]2 alpha 2(IV), and that four identical molecules must form a tetramer that is joined in an antiparallel manner at the 7S domain. The monoclonal antibodies against type V collagen, called AB12 and DH2 , were both found to recognize epitopes close to one another, the epitopes being located 45-48 nm from one end of the type V collagen molecule. The significance of this result still remains uncertain, but suggests that this site is probably highly immunoreactive. It may also be related to the specific cleavage site of type V collagen by selected metalloproteinases and by alpha-thrombin. This cleavage site is also known to be located close to one end of the type V molecule.
