Biochemical characterization and N-terminomics analysis of leukolysin, the membrane-type 6 matrix metalloprotease (MMP25): chemokine and vimentin cleavages enhance cell migration and macrophage phagocytic activities.

The neutrophil-specific protease membrane-type 6 matrix metalloproteinase (MT6-MMP)/MMP-25/leukolysin is implicated in multiple sclerosis and cancer yet remains poorly characterized. To characterize the biological roles of MT6-MMP, it is critical to identify its substrates for which only seven are currently known. Here, we biochemically characterized MT6-MMP, profiled its tissue inhibitor of metalloproteinase inhibitory spectrum, performed degradomics analyses, and screened 26 chemokines for cleavage using matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. MT6-MMP processes seven each of the CXC and CC chemokine subfamilies. Notably, cleavage of the neutrophil chemoattractant CXCL5 activates the chemokine, thereby increasing its agonist activity, indicating a feed-forward mechanism for neutrophil recruitment. Likewise, cleavage also activated CCL15 and CCL23 to increase monocyte recruitment. Utilizing the proteomics approach proteomic identification of cleavage site specificity (PICS), we identified 286 peptidic cleavage sites spanning from P6 to P6' from which an unusual glutamate preference in P1 was identified. The degradomics screen terminal amine isotopic labeling of substrates (TAILS), which enriches for neo-N-terminal peptides of cleaved substrates, was used to identify 58 new native substrates in fibroblast secretomes after incubation with MT6-MMP. Vimentin, cystatin C, galectin-1, IGFBP-7, and secreted protein, acidic and rich in cysteine (SPARC) were among those substrates we biochemically confirmed. An extracellular "moonlighting" form of vimentin is a chemoattractant for THP-1 cells, but MT6-MMP cleavage abolished monocyte recruitment. Unexpectedly, the MT6-MMP-cleaved vimentin potently stimulated phagocytosis, which was not a property of the full-length protein. Hence, MT6-MMP regulates neutrophil and monocyte chemotaxis and by generating "eat-me" signals upon vimentin cleavage potentially increases phagocytic removal of neutrophils to resolve inflammation.

Mecanismos envolvidos na resposta imune e inflamatória frente à implantação de membrana de cortical óssea bovina no tecido subcutâneo de camundongos: caracterização histomorfométrica, imunoenzimática e molecular / Mechanisms involved in immune and inflammatory response to implantation of bovine bone cortical membrane in subcutaneous tissue of mice: characterization histomorphometric, imunoenzimatic and molecular

Os avanços relacionados à ciência dos biomateriais e engenharia tecidual buscam esclarecer os mecanismos envolvidos na resposta biológica associada ao uso desses dispositivos e sua interação com o sistema imune. Neste estudo, avaliou-se a resposta imune e inflamatória desenvolvida em camundongos frente à implantação de membrana de cortical óssea bovina no tecido subcutâneo, em implantação única e sequencial de duas membranas, assim como os possíveis mecanismos envolvidos no processo de reconhecimento e reabsorção desse biomaterial, de acordo com análise histomorfométrica, enzimática e molecular. Após a implantação da membrana, sinais de reabsorção que antes eram notados em pontos isolados, aos poucos se unem até sua completa degradação, observada somente após 15 dias. Todo o processo de reabsorção da membrana é acompanhado por uma reação inflamatória de magnitude moderada, seguida pelo declínio do número de leucócitos, surgimento de células gigantes multinucleadas e formação de uma cápsula de tecido conjuntivo fibroso. A cinética de TNF-α e MMP-2, MMP-8, MMP-9 e MMP-13 apresentou um padrão de produção decrescente, entretanto os níveis dos inibidores de metaloproteinases (TIMPs) e TGF-β parecem atuar de forma inversa. A velocidade de reabsorção após duas implantações consecutivas da membrana foi maior quando comparada ao grupo de animais que sofreu apenas uma implantação, porém os resultados do teste de hipersensibilidade do tipo tardia (DTH) demonstraram que a membrana é biocompatível, pois não elicitou resposta imunológica exacerbada após uma segunda implantação, confirmando então a natureza não imunogênica desse biomaterial. Finalmente, os animais CD14KO e MyD88KO apresentaram uma reabsorção mais lenta da membrana implantada, quando comparados aos animais C57Bl/6 (WT)...

Advances related to the biomaterials science and tissue engineering seek to clarify the mechanisms involved in the biological response associated with the use of those devices and their interaction with the immune system. This study evaluated the inflammatory and immune response developed in mice after implantation bovine bone cortical membrane in subcutaneous tissue, in both, unique and sequential implantation of 2 membranes, as the mechanisms involved in this biomaterial recognition and resorption process, on regards to histomorphometric, enzymatic and molecular analysis. After membrane implantation, previously observed signs of resorption in isolated spots, gradually unite until their complete degradation after 15 days. The whole membrane resorption process is accompanied by a moderate inflammatory reaction, followed by a decline in the leukocytes number, appearance of multinucleated giant cells and formation of a capsule of fibrous connective tissue. The kinetics of TNF-α, MMP-2, MMP-8, MMP-9 e MMP-13 showed a pattern of decreasing production, however, levels of metalloproteinases inhibitors (TIMPs) and TGF-β seem to act in reverse way. The resorption rate after two successive membrane implantations was higher when compared to the group which suffered only one implantation, however, the results of delayed test hypersensity (DTH) demonstrated that the membrane is biocompatible, that is, it does not elicited too high immune response after a second position, confirming the non immunogenic nature of this biomaterial. Eventually, CD14KO and MyD88KO strains showed a slower membrane resorption when compared to animals C57Bl/6, demonstrating that the CD14 and MyD88 molecules are involved in biomaterial recognition and play an important role in bovine cortical bone membrane resorption process, indicating that PAMPs and/or DAMPs are involved in biological response generated by this biomaterial.

Wnt signaling induces matrix metalloproteinase expression and regulates T cell transmigration.

Wnts are a family of secreted glycoproteins with diverse developmental roles, including regulation of cell migration; however, little is known about wnt signaling in mature T cells. We find that endothelial-cell-derived wnts, acting through Frizzled receptors, induce matrix metalloproteinase (MMP) 2 and MMP9 expression in effector T cells. Blocking wnt signaling, or MMP activity, reduces T cell migration through the basement membrane in vitro and into inflamed skin in vivo. Wnt signaling stabilizes beta-catenin protein in T cells and directly targets the MMP promoters through tandem TCF sites. Thus, our data support a necessary and previously unexpected role for wnt signaling in T cell extravasation.