The omentum harbors unique conditions in the peritoneal cavity to promote healing and regeneration for diaphragm muscle repair in mdx mice.

Although the primary cause of Duchenne muscular dystrophy (DMD) is a genetic mutation, the inflammatory response contributes directly to severity and exacerbation of the diaphragm muscle pathology. The omentum is a lymphoid organ with unique structural and immune functions serving as a sanctuary of hematopoietic and mesenchymal progenitors that coordinate immune responses in the peritoneal cavity. Upon activation, these progenitors expand and the organ produces large amounts of growth factors orchestrating tissue regeneration. The omentum of mdx mouse, a DMD murine model, is rich in milky spots and produces growth factors that promote diaphragm muscle regeneration. The present review summarizes the current knowledge of the omentum as an important immunologic structure and highlights its contribution to resolution of dystrophic muscle injury by providing an adequate environment for muscle regeneration, thus being a potential site for therapeutic interventions in DMD.

Implant of polymer containing pentacyclic triterpenes from Eugenia punicifolia inhibits inflammation and activates skeletal muscle remodeling.

Sustained chronic inflammation induces activation of genes involved in cellular proliferation and apoptosis, thereby causing skeletal muscle degeneration. To investigate in vitro effects of isolated pentacyclic triterpenes from Eugenia punicifolia (Ep-CM) upon signaling pathways involved in the regulation of skeletal muscle cell line proliferation, and in vivo muscular tissue remodeling. C2C12 cells were seeded on eight-well plates and [(3)H]-thymidine incorporation, TUNEL assays, mitochondria viability, zymography for matrix metalloproteases (MMPs), Western blot analysis for MAPKinase signaling pathway, NFκB activation and HMGB1 production subsequently determined under basal conditions and after Ep-CM treatment. A polymer containing Ep-CM was implanted on the volar surface of gastrocnemius muscles subjected to acute injury induced by bupivacaine for local slow and gradual release of bioactive compounds, and mice killed 4 days after surgery. Ep-CM inhibited proliferation of C2C12 myoblast cell line in a dose-dependent manner, confirmed by reduction of [(3)H]-thymidine uptake without affecting cell viability or inducing apoptosis. The cytostatic effect of Ep-CM occurred mainly via inhibition of phosphorylated extracellular signal-regulated kinase (pERK) activation and DNA synthesis, possibly inhibiting the G1 phase of the cell cycle, since Ep-CM increased pAkt and p27(kip1) but reduced Cyclin D1. Ep-CM in vitro treatment increased MMP-9 and MMP-2 activities of C2C12 myoblast cells, but reduced in vivo MMP-9 activity and acute muscular inflammation. Besides cytostatic and anti-inflammatory effects, Ep-CM pentacyclic triterpenes also contributed to degradation of basement membrane components by activating mechanisms of skeletal muscle remodeling in response to local injury.

Intranasal administration of perillyl alcohol activates peripheral and bronchus-associated immune system in vivo.

Perillyl alcohol (POH) presents antitumoral activity but clinical application is hampered by adverse effects following oral administration. This work aimed to verify the cytotoxic effect of intranasal POH administration in the histology of lung, liver, brain; the cellularity and function of peripheral and bronchoalveolar-associated immune system. C57 adult mice received 1-min inhalation with POH, vehicle 70 % ethanol or saline buffer, once (84 µg/day) or twice (164 µg/day) during five consecutive days, and were killed 72 h after treatment. Spleen, cervical and mesenteric lymph nodes were removed for (3)H-thymidine proliferation assay, leukocyte cellularity and flow cytometry analysis. Peripheral blood and bronchoalveolar lavage cells were collected to assess cellularity and immunoglobulin (IgA, IgM) levels. Intranasal POH did not alter body weight or liver, brain and lung morphology, but increased splenocyte and cervical lymph node cell proliferation, and IgM production without altering peripheral lymphocyte subsets. Treatment also increased the percentage of alveolar macrophages (83 %) and IgA-producing lymphocytes (15 %), a pattern characteristic of activated bronchoalveolar innate immune system. Intranasal administration of POH activated peripheral immune system and innate immunity of bronchus-associated lymphoid tissue, thus suggesting a possible role for POH as a chemotherapeutic drug also in pathological processes affecting the lung.

The histopathological and immunological pattern of CBA mice infected with Leishmania amazonensis after treatment with pyrazole carbohydrazide derivatives.

Because there is no vaccine in clinical use, control of Leishmaniasis relies almost exclusively on chemotherapy and the conventional treatments exhibit high toxicity for patients and emerging drug resistance. Recently, we showed that oral treatment with synthetic pyrazole carbohydrazide compounds induced lower parasite load in draining lymph nodes and reduced skin lesion size without causing any toxic effects in an experimental murine infection model with Leishmania amazonensis. In this study, CBA mice were infected in the footpad with L. amazonensis and then orally treated with pyrazole carbohydrazides derivatives, such as BrNO(2), NO(2)Cl and NO(2)Br and their histopathological and immunological effects were then investigated. Epidermis and dermis had lower levels of inflammatory infiltration compared to the infected untreated control mice. In the dermis of treated animals, the numbers of vacuolated macrophages containing intracellular parasites were far lower than in infected untreated animals. In addition to dermal macrophages, we also observed a mixed inflammatory infiltrate containing lymphocytes and granulocyte cells. Lower numbers of B cells (B220+) and T lymphocytes (CD3+) were identified in the lesions of treated mice compared with the untreated, infected mice. In draining lymph node cells, the number of T lymphocytes (CD3+) was decreased, and the numbers of B cells (CD19+) and CD8+ T cells were increased in infected mice, when compared with the non-infected control group. In additional, we have shown that infected treated and untreated lymph node cells had similar levels of TGF-ß and IFN-γ mRNA expression, whereas IL-4 was expressed at a lower level in the treated group. Increased levels of the specific anti-Leishmania IgG2a or IgG3 antibody subclass were observed in NO(2)Cl or BrNO(2)-treated group, respectively. Overall, our experimental findings suggest that pyrazole carbohydrazides exert modulation of IL-4 expression and B cell levels; however, further evaluation is required to determine the optimal treatment regime.

Anti-inflammatory activity of Eugenia punicifolia extract on muscular lesion of mdx dystrophic mice.

Eugenia punicifolia known as "pedra-ume caá" is a shrub largely distributed in the Amazon region popularly used in decoctions or infusions as a natural therapeutic agent, which can interfere on cholinergic nicotinic neurotransmission. This work aimed to investigate a putative anti-inflammatory effect of dichloromethane fraction of E. punicifolia extract (Ep-CM) in the muscular lesion of mdx dystrophic mice, considering that activation of cholinergic mechanisms mitigates inflammation. A polymer containing the Ep-CM was implanted in mdx gastrocnemius muscle before onset of myonecrosis for local slow and gradual release of bioactive compounds and mice sacrificed 7 days or 9 weeks after surgery. Comparing to control muscle, treatment did not alter choline acetyltransferase and acetylcholinesterase enzymatic activities, but decreased metaloproteases-9 and -2 activities and levels of tumor necrosis factor α and NFκB transcription factor. In addition, treatment also reduced levels of bioactive IL-1ß form and cleaved caspase-3, related to early events of cellular death and inflammatory activation and further increased myogenin expression without affecting collagen production which is associated with fibrosis. In vivo treatment of mdx dystrophic mice with Ep-CM caused significant reduction of muscular inflammation and improved skeletal muscle regeneration without inducing fibrosis.

Brain sweet brain: importance of sugars for the cerebral microenvironment and tumor development.

The extracellular matrix (ECM) in the brain tissue is a complex network of glycoproteins and proteoglycans that fills the intercellular space serving as scaffolding to provide structural framework for the tissue and regulate the behavior of cells via specific receptors - integrins. There is enormous structural diversity among proteoglycans due to variation in the core protein, the number of glycosaminoglycans chains, the extent and position of sulfation. The lectican family of proteoglycans interacts with growth factors, hyaluronan and tenascin forming a complex structure that regulates neuronal plasticity and ion homeostasis around highly active neurons. In this review, we will discuss the latest insights into the roles of brain glycoproteins as modulators of cell adhesion, migration, neurite outgrowth and glial tumor invasion.

Brain sweet brain: importance of sugars for the cerebral microenvironment and tumor development / Cérebro doce cérebro: importância dos açúcares para o microambiente cerebral e o desenvolvimento tumoral

The extracellular matrix (ECM) in the brain tissue is a complex network of glycoproteins and proteoglycans that fills the intercellular space serving as scaffolding to provide structural framework for the tissue and regulate the behavior of cells via specific receptors - integrins. There is enormous structural diversity among proteoglycans due to variation in the core protein, the number of glycosaminoglycans chains, the extent and position of sulfation. The lectican family of proteoglycans interacts with growth factors, hyaluronan and tenascin forming a complex structure that regulates neuronal plasticity and ion homeostasis around highly active neurons. In this review, we will discuss the latest insights into the roles of brain glycoproteins as modulators of cell adhesion, migration, neurite outgrowth and glial tumor invasion.

A matriz extracelular (ECM) no tecido cerebral é formada por uma rede complexa de glicoproteínas e proteoglicanas que preenchem o espaço intercelular participando como estrutura de sustentação do arcabouço tecidual regulando a função celular por interações com receptores específicos - as integrinas. Existe enorme diversidade estrutural entre as proteoglicanas, devido à variação na proteína central (core), à quantidade de cadeias de glicosaminoglicanas, ao grau e posição de grupamentos sulfato na molécula. As proteoglicanas lecticanas interagem com fatores de crescimento, com hialuronana e tenascina formando uma estrutura complexa regulando a homeostase de íons e a plasticidade neuronal. Neste artigo de revisão serão apresentados dados relevantes da literatura sobre o papel das glicoproteínas no microambiente do tecido cerebral, como moduladores da neuritogênese, da adesão, migração celular e invasividade de células tumorais de origem glial.

Pattern of metalloprotease activity and myofiber regeneration in skeletal muscles of mdx mice.

Matrix metalloproteases (MMPs) are key regulatory molecules in the formation, remodeling, and degradation of extracellular matrix components in both physiological and pathological processes. Skeletal muscles of mdx dystrophic mice show distinct patterns of inflammation and regeneration, suggesting that factors within the microenvironment influence the adaptive responses of muscles with predominantly slow-twitch or fast-twitch fibers. This study aimed to verify the pattern of MMP activity in gastrocnemius, soleus, and diaphragm muscles and correlate it with the regenerative capability at distinct stages of the mdx myopathy. Marked inflammation and myonecrosis was associated with increased MMP-9 activity and TNF-alpha (tumor necrosis factor-alpha) production, whereas muscle regeneration, evidenced by NCAM (neural cell adhesion molecule) expression and MMP-2 activity, varied at different stages of the disease. Soleus muscles showed a high percentage of NCAM-positive myofibers in the early stages (2 weeks) of the disease, but they appeared in the gastrocnemius muscles at 12 weeks and in the diaphragm at 24 weeks. Increased MMP-2 activity in the diaphragm throughout all stages of the disease suggests important tissue remodeling, which is probably associated with persistent inflammation. The results indicate that the microenvironment of distinct skeletal muscle may influence a particular kinetic pattern of MMP activity, which ultimately favors persistent inflammation and myofiber regeneration at different stages of the myopathy in mdx mice.

Importância do camundongo mdx na fisiopatologia da distrofia muscular de Duchenne / The importance of mdx mouse in the pathophysiology of Duchenne's muscular distrophy

O camundongo mdx desenvolve distrofia muscular recessiva ligada ao cromossoma X (locus Xp21.1) e näo expressa distrofina. Embora näo apresente intensa fibrose do tecido muscular e acúmulo de tecido adiposo, é considerado o modelo animal mais adequado da distrofia muscular de Duchenne. As alteraçäes estruturais no tecido muscular associadas à mionecrose e presença do infiltrado inflamatório com predomínio de linfócitos e monócitos/macrófagos sugerem uma participaçäo do sistema imunológico nesta miopatia. Além disso a modulaçäo na expressäo dos componentes da matriz extracelular no microambiente muscular nas vßrias fases da doença (início, mionecrose, regeneraçäo) indicam um papel importante do conjuntivo no direcionamento das células inflamatórias para o foco da lesäo muscular. O camundongo mdx coloca-se como um excelente modelo para o estudo dos mecanismos patogenéticos da mionecrose e regeneraçäo na distrofia muscular de Duchenne, possibilitando inclusive o desenvolvimento de estratégias terapêuticas mais adequadas.