Two- and three-color STORM analysis reveals higher-order assembly of leukotriene synthetic complexes on the nuclear envelope of murine neutrophils.

Over the last several years it has become clear that higher order assemblies on membranes, exemplified by signalosomes, are a paradigm for the regulation of many membrane signaling processes. We have recently combined two-color direct stochastic optical reconstruction microscopy (dSTORM) with the (Clus-DoC) algorithm that combines cluster detection and colocalization analysis to observe the organization of 5-lipoxygenase (5-LO) and 5-lipoxygenase-activating protein (FLAP) into higher order assemblies on the nuclear envelope of mast cells; these assemblies were linked to leukotriene (LT) C4 production. In this study we investigated whether higher order assemblies of 5-LO and FLAP included cytosolic phospholipase A2 (cPLA2) and were linked to LTB4 production in murine neutrophils. Using two- and three-color dSTORM supported by fluorescence lifetime imaging microscopy we identified higher order assemblies containing 40 molecules (median) (IQR: 23, 87) of 5-LO, and 53 molecules (62, 156) of FLAP monomer. 98 (18, 154) molecules of cPLA2 were clustered with 5-LO, and 77 (33, 114) molecules of cPLA2 were associated with FLAP. These assemblies were tightly linked to LTB4 formation. The activation-dependent close associations of cPLA2, FLAP, and 5-LO in higher order assemblies on the nuclear envelope support a model in which arachidonic acid is generated by cPLA2 in apposition to FLAP, facilitating its transfer to 5-LO to initiate LT synthesis.

Mecanismos intracelulares induzidos por leucotrienos durante a diferenciação osteogênica / Leukotriene-induced intracellular mechanisms during osteogenic differentiation

Os leucotrienos (LTs) são mediadores inflamatórios derivados da via 5- lipoxigenase (5-LO), com contribuição relevante na reabsorção óssea. Neste estudo investigamos o papel dos LTs na diferenciação osteogênica e o seu impacto na osteoclatogênese. Assim, foi avaliado o perfil ósseo dos camundongos 129/Sv (WT) e 5-LO Knockout (5-LO KO) por meio de microtomografia computadorizada, evidenciando maior densidade óssea vertebral e trabéculas mais espessas em machos 5-LO KO. Após isso, osteoblastos primários (OBL) foram isolados e cultivados para determinar a atividade de fosfatase alcalina (ALP) e o potencial de mineralização. Resultados mostraram que OBL KO possui maior atividade de ALP e mineralização, em todos os períodos quando comparados com WT. Em adição, o tratamento com os LTs B4 e D4 inibiu a deposição de cálcio. Os inibidores da síntese de LTs e os antagonistas do BLT1/2 foram efetivos em recuperar a formação dos nódulos mineralizados. A cinética do Alox5 apresentou um aumento da expressão nos períodos de maior diferenciação celular em OBL WT. Além disso, a expressão de OCN, MMPs 2 e 9 e RANKL foram aumentadas em células 5-LO KO em quase todos os períodos avaliados. Em geral, o estímulo com LTs, seus inibidores e antagonistas diminuiu a expressão de Sp7, Col1a1, Opg e MMP-9 e aumentou RANKL em células KO. A sinalização por meio de segundos mensageiros também foi avaliada. Células 5-LO KO apresentam menor concentração de cálcio intracelular (Ca2+i) em relação ao WT. No período de 14 dias, o estímulo com LTD4 inibiu a liberação Ca2+i independente da linhagem, em relação ao controle. Os níveis de cAMP foram menores em OBL 5- LO KO, em todos os grupos tratados ou controle. LTD4 diminuiu a concentração de cAMP, mas não LTB4, em OBL 5-LO KO. O estudo também quantificou a produção de LTB4 e outros eicosanoides em osteoblastos mostrando a sua capacidade de síntese. A análise proteômica revelou 89 proteínas com expressão diminuída em OBL 5-LO KO, de um total de 154, sendo a maioria relacionada ao citoesqueleto e ao metabolismo energético. Também foram identificadas 59 proteínas exclusivas em OBL 5-LO KO e 06 unicamente expressas em células WT, revelando as diferenças intrínsecas de cada animal. O perfil osteoclastogênico de camundongos WT vs. 5-LO KO mostrou diferenças significativas na análise fenotípica, TRAP e na expressão gênica de células derivadas da linhagem monocítica-macrofágica. Após o estímulo com M-CSF e RANKL, as células WT apresentaram osteoclastos gigantes multinucleados, porém, células 5-LO KO apresentaram uma população de células com formas e tamanhos variáveis, e menor grau de maturação. Em adição, os LTsexógenos não modularam a atividade da TRAP. O meio condicionado proveniente dos OBL WT e KO, retardaram o processo de formação dos osteoclastos. A análise da expressão gênica em osteoclastos mostrou diminuição da expressão de Alox5, Il- 1b, Il-6 e TNFa em células 5-LO KO. BLT1/2, CysLt1 e os marcadores da diferenciação Acp5, Ctsk e Nfact1 não apresentaram diferenças entre os animais. Em adição, o LTB4 diminuiu a expressão do Alox5 e a Il-1b foi aumentada em osteoclastos WT. Assim, os resultados demonstram que os LTs são capazes de modular o metabolismo ósseo, e a ausência do gene da 5-LO está relacionada ao maior perfil osteogênico.(AU)

Leukotrienes (LTs) are inflammatory mediators derived from the 5-lipoxygenase (5-LO) pathway, with a relevant contribution in bone resorption. In this study we investigated the role of LTs in osteogenic differentiation and its impact on osteoclastogenesis.Thus, the bone profile of the 129/Sv (WT) and 5-LO Knockout mice (5-LO KO) was evaluated by computerized microtomography, showing higher vertebral bone density and thicker trabeculae in 5-LO KO males. After that, primary osteoblasts (OBL) were isolated and cultured to determine alkaline phosphatase activity (ALP) and mineralization potential. Results showed that OBL KO has higher ALP activity and mineralization, in all periods when compared with WT. In addition, the treatment with LTB4 and LTD4 inhibited calcium deposition. Inhibitors of LT synthesis and BLT1/2 antagonists were effective to recover the mineralized nodules formation. The kinetics of Alox5 showed an increase in expression during cellular differentiation period in WT OBL. In addition, expression of OCN, MMPs 2 and 9 and RANKL were increased in 5- LO KO cells in almost all evaluated periods. In general, the stimulation with LTs, their inhibitors and antagonists decreased the expression of Sp7, Col1a1, Opg and MMP- 9. But it increased the RANKL expression in KO cells. The second messengers signaling was also evaluated. 5-LO KO cells showed lower concentration levels of intracellular calcium (Ca2+ i) when compared to WT cells. In the 14-day period, the LTD4 treatment inhibited the Ca2+i independent of the murine lineage, relative to the control. cAMP levels were lower in OBL 5-LO KO, in all treated or control groups. LTD4 decreased the concentration of cAMP, but not LTB4, in KO cells. The study also quantified the production of LTB4 and other eicosanoids in osteoblasts showing their ability to synthesize those metabolites. The proteomic analysis revealed 89 downregulated proteins in OBL KO, out of a total of 154, most of them related to cytoskeleton and energy metabolism. Also 59 identified proteins were unique in OBL 5-LO KO and 06 exclusively expressed in WT cells, revealing the intrinsic differences of each strain. The osteoclastogenic profile of WT vs. 5-LO KO showed significant differences in phenotypic analysis, TRAP and in the gene expression of cells derived from the monocyte-macrophage-lineage. After M-CSF and RANKL stimulation, WT cells showed multinucleated giant osteoclasts. However, 5-LO KO cells presented a population of cells with variable shapes and sizes, and a lower maturation stage. In addition, exogenous LTs did not modulate TRAP activity. The conditioned medium from OBL WT and 5-LO KO delayed the formation process of osteoclasts. Gene expression analysis in osteoclasts showed decreased expression of Alox 5, Il-1b, Il-6 and TNFα in 5-LO KO cells. BLT1/2, CysLt1 and the osteoclast differentiation markers Acp5, Ctsk and Nfact1 showed no differences between the strains. In addition, LTB4 decreased the expression of Alox5, and IL-1b was increased in WT osteoclasts. Thus, the results demonstrate that the LTs are able to modulate the bone metabolism, and the absence of the 5-LO gene is related to the greater osteogenic profile.(AU)

Activated LTB4 pathway in muscle tissue of patients with polymyositis or dermatomyositis.

OBJECTIVE: To investigate the involvement of the leukotriene B4 (LTB4) pathway in polymyositis (PM) and dermatomyositis (DM) and the effect of immunosuppressive treatment on the LTB4 pathway. METHODS: 5-lipoxygenase (5-LO), 5-LO activating protein (FLAP) and LTB4 receptor-1 (BLT1) expression was analysed by immunohistochemistry in muscle tissue from patients with PM/DM before and after immunosuppressive treatment and from healthy individuals. In vivo LTB4 in thigh muscle was measured by microdialysis at rest and after acute exercise in another cohort of patients and healthy controls. RESULTS: The number of 5-LO-positive cells and BLT1-positive capillaries was higher in patients with PM/DM than in healthy individuals. The number of FLAP-expressing cells divided the patients into two groups (high/low expression). Treatment reduced the number of FLAP-positive cells in the group with initial high levels, however the expression remained high compared with healthy individuals. The number of BLT1-positive cells was also reduced while staining for 5-LO was unchanged. An inverse correlation was observed between the number of 5-LO or FLAP-positive cells in muscle tissue and muscle performance. LTB4 could be detected in dialysate of muscle tissue in vivo in both patients and healthy controls and was significantly increased after exercise in patients. CONCLUSION: The LTB4 pathway is upregulated in muscle tissue from patients with PM/DM and this upregulation correlated negatively to muscle performance, suggesting a role for LTB4 in myositis muscle weakness. The immunosuppressive treatment was insufficient on the LTB4 pathway and, for patients with high expression of FLAP, FLAP inhibitors may be considered as possible therapy.

Increased expression of leukotriene C4 synthase and predominant formation of cysteinyl-leukotrienes in human abdominal aortic aneurysm.

Leukotrienes (LTs) are arachidonic acid-derived lipid mediators involved in the pathogenesis and progression of diverse inflammatory disorders. The cysteinyl-leukotrienes LTC(4), LTD(4), and LTE(4) are important mediators of asthma, and LTB(4) has recently been implicated in atherosclerosis. Here we report that mRNA levels for the three key enzymes/proteins in the biosynthesis of cysteinyl-leukotrienes, 5-lipoxygenase (5-LO), 5-LO-activating protein (FLAP), and LTC(4) synthase (LTC(4)S), are significantly increased in the wall of human abdominal aortic aneurysms (AAAs). In contrast, mRNA levels of LTA(4) hydrolase, the enzyme responsible for the biosynthesis of LTB(4), are not increased. Immunohistochemical staining of AAA wall revealed focal expression of 5-LO, FLAP, and LTC(4)S proteins in the media and adventitia, localized in areas rich in inflammatory cells, including macrophages, neutrophils, and mast cells. Human AAA wall tissue converts arachidonic acid and the unstable epoxide LTA(4) into significant amounts of cysteinyl-leukotrienes and to a lesser extent LTB(4). Furthermore, challenge of AAA wall tissue with exogenous LTD(4) increases the release of matrix metalloproteinase (MMP) 2 and 9, and selective inhibition of the CysLT1 receptor by montelukast blocks this effect. The increased expression of LTC(4)S, together with the predominant formation of cysteinyl-leukotrienes and effects on MMPs production, suggests a mechanism by which LTs may promote matrix degradation in the AAA wall and identify the components of the cysteinyl-leukotriene pathway as potential targets for prevention and treatment of AAA.