Latent TGF-beta binding protein-1 plays an important role in craniofacial development

Abstract Objective: This study aims to replicate the phenotype of Ltbp1 knockout mice in zebrafish, and to address the function of LTBP1 in craniofacial development. Methods: Whole mount in situ hybridization (WISH) of ltbp1 was performed at critical periods of zebrafish craniofacial development to explore the spatial-temporal expression pattern. Furthermore, we generated morpholino based knockdown model of ltbp1 to study the craniofacial phenotype. Results: WISH of ltbp1 was mainly detected in the mandibular jaw region, brain trunk, and internal organs such as pancreas and gallbladder. And ltbp1 colocalized with both sox9a and ckma in mandibular region. Morpholino based knockdown of ltbp1 results in severe jaw malformation. Alcian blue staining revealed severe deformity of Meckel's cartilage along with the absence of ceratobranchial. Three-dimension measurements of ltbp1 morphants jaws showed decrease in both mandible length and width and increase in open mouth distance. Expression of cartilage marker sox9a and muscle marker ckma was decreased in ltbp1 morphants. Conclusions: Our experiments found that ltbp1 was expressed in zebrafish mandibular jaw cartilages and the surrounding muscles. The ltbp1 knockdown zebrafish exhibited phenotypes consistent with Ltbp1 knockout mice. And loss of ltbp1 function lead to significant mandibular jaw defects and affect both jaw cartilages and surrounding muscles.

Produção da proteína recombinante humana TGF-ß1 (fator do crescimento transformante beta 1) em células de mamífero / Production of recombinant human protein TGF-ß1 (Transforming Growth Factor Beta 1) in mammalian cells

O fator de crescimento transformante beta tipo 1, TGF-ß1, é uma proteína extracelular homodimérica secretada por vários tipos celulares, que pode ter ação parácrina ou endócrina. Essa proteína está envolvida em processos celulares de diferenciação, proliferação, mobilidade e formação de matriz extracelular. Além disso, é parte importante dos processos de regeneração tecidual, atuando, de maneira decisiva, no reparo, atraindo macrófagos e fibroblastos para o local da injúria e estimulando a angiogênese. Assim, considerando o papel desse peptídeo no processo regenerativo, o uso de TGF-ß1 como proteína terapêutica na área de Bioengenharia Tecidual é bastante promissor. Apesar disso, a venda dessa proteína, para fins terapêuticos, é inexistente no mercado e a proteína recombinante vendida, que só pode ser utilizada em pesquisas científicas, não é produzida nacionalmente e chega a custar R$200.000,00/mg. Nesse contexto, o objetivo do presente trabalho é desenvolver uma metodologia de produção do fator recombinante TGF-ß1 em células de ovário de hamster chinês (CHO), visando à obtenção de níveis altos de rendimento, e, futuramente, a transferência da tecnologia de produção para a iniciativa privada, tornando possível seu uso na Medicina Regenerativa, sozinho ou em combinação com outros fatores de crescimento. O cDNA de TGF-ß1 foi amplificado a partir de um banco de cDNA humano e clonado no vetor proprietário pNU1 de expressão de mamífero. A construção pNU1/TGF-ß1 foi utilizada para transfectar estavelmente células CHO DG44 e uma estratégia de co-amplificação foi utilizada para selecionar células transfectantes com maior número de cópias da sequência correspondente a TGF-ß1. Estas culturas foram submetidas ao processo de amplificação gênica com concentrações crescentes de metotrexato. Ensaios de Western Blot e ELISA foram realizados utilizando-se o meio condicionado pelas populações selecionadas e por clones superprodutores. Entre os 41clones obtidos, cinco apresentaram maiores níveis de produção de TGF-ß1, entre 1.000 e 2.000 ng/mL. Estes clones foram selecionados para a realização de testes de atividade in vitro utilizando-se células A549, que permitem avaliar a transição epitélio-mesênquima. Um ensaio de cicatrização de feridas em peles do dorso de camundongos foi padronizado e utilizado para avaliar a atividade in vivo do clone que apresentou melhor resultado in vitro. A proteína TGF-ß1 foi parcialmente purificada por HPLC em uma coluna de afinidade. Portanto, a proteína TGF-ß1 humana recombinante foi produzida, apresentando atividade biológica in vitro e in vivo, sendo capaz de reparar eficientemente feridas cutâneas. Essa iniciativa pode oferecer aos pacientes uma alternativa para o tratamento de lesões teciduais, acelerando a cicatrização de feridas e o reparo de tecidos

The transforming growth factor beta 1, TGF-ß1, is a homodimeric extracellular protein secreted by several cell types, which may have paracrine or endocrine action. This protein is involved in cellular processes of differentiation, proliferation, mobility and formation of extracellular matrix. In addition, it is an important part of the tissue regeneration processes, acting decisively on repair, attracting macrophages and fibroblasts to the site of injury and stimulating angiogenesis. Therefore, considering the role of this peptide in the regenerative process and the use of TGF-ß1 as a therapeutic protein in the field of Tissue Bioengineering is very promising. Despite this, the sale of this protein for therapeutic purposes is nonexistent in the market and the recombinant protein available in the market, which can only be used in scientific research, is not produced nationally and the costs are in the order of R$ 200,000.00/mg. In this context, the objective of the present work is to develop a methodology for the production of the TGF-ß1 recombinant factor in Chinese hamster ovary (CHO) cells, aiming at obtaining high yields, and, in the future, transfering the production technology to the private initiative, allowing its use in Regenerative Medicine, alone or in combination with other growth factors. The TGF-ß1 cDNA was amplified from a human cDNA library and cloned into the proprietary pNU1 mammalian expression vector. The pNU1/TGF-ß1 construct was used to stably transfect CHO DG44 cells, and a co-amplification strategy was used to select transfectant cells with the largest number of gene copies. These cultures were subjected to the process of gene amplification with methotrexate. Western Blot and ELISA were used to assay the conditioned medium obtained from the selected cell populations and from overproducing cell clones. Among the 41 clones obtained, five presented higher levels of TGF-ß1 production, between 1,000 and 2,000 ng/mL. These clones were selected for in vitro activity testing using A549 cells to evaluate the epithelial-mesenchymal transition. Awound healing assay on mouse dorsal skin was standardized and used to evaluate the in vivo activity of the cell clone which displayed the highest result in vitro. The TGF-ß1 protein was partially purified by HPLC on an affinity column. Therefore, the recombinant human TGF-ß1 protein was produced and shown to display biological activity both in vitro and in vivo, being able to eficiently repair cutaneous wounds. This initiative may provide patients with an alternative treatment for tissue damage, accelerating wound healing and tissue repair

Pharmacological and antioxidant actions of garlic and/or onion in non-alcoholic fatty liver disease [NAFLD] in rats

Non-alcoholic fatty liver disease [NAFLD] includes a broad spectrum of fat-induced liver injury, ranging from mild steatosis to cirrhosis and liver failure. This study investigates the hepatoprotective properties of garlic and onion in NAFLD rat model. Ninety male Sprague-Dawley rats were randomly divided into 9 groups; normal [I], NAFLD induced with high fat diet [HFD; II], NAFLD switched to regular diet [RD; III], NAFLD-HFD or NAFLD-RD treated with garlic [IV, V] onion [VI, VII] or the combined garlic+onion [VIII, IX] respectively. A NAFLD rat model was established by feeding the animals with a high-fat diet for 12 wk. These animals were then treated with garlic or/and onion or vehicle for 8 wk [weeks 13-20] and then killed to obtain serum samples and liver tissues. Liver histology, lipids, parameters of oxidative stress, TNF-alpha and TGF-p were measured. The liver in NAFLD-HFD showed typical steatosis, accompanied with mild to moderate lobular inflammatory cell infiltration. Serum levels of ALT, AST, ALP, leptin, cholesterol, triglycerides, TNF-alpha, TGF-P and hepatic MDA were significantly increased [P<0.05] compared with normal group. This was accompanied with reduction of hepatic GSH, GR, GPx, GST, SOD and serum adiponectin. These changes were to a less degree in NAFLD-RD group. Combined administration of garlic+onion produced a better and significant decrease in liver steatosis, serum liver enzymes, oxidative markers and lipid peroxidation versus each one alone. In the same time, NAFLD-induced inflammation was also mitigated via reduction of TNF-alpha and TGF-P. In addition, these results were better in the group IX versus group VIII

The role of TGF-beta activation on different pathological phenotypes in chronic rhinosinusitis / 临床耳鼻咽喉头颈外科杂志

Transforming growth factor-beta (TGF-beta) as a main switch has a crucial role in chronic rhinosinusitis (CRS) subtypes. The physiological functions of the secreted inactive TGF-beta are precisely regulated by suppressing factors, such as latency-associated peptide (LAP), latent TGF-beta-binding protein (LTBP) and fibrillin, as well as activating factors, such as integrins, proteases and thrombospondin-1. With progress in understanding the factors responsible for regulating TGF-beta functions, it has been revealed that the dysregulation of TGF-beta activation is closely associated with lung fibrosis and chronic obstructive pulmonary disease. Since the imbalance between TGF beta-regulating factors may be one of the main reasons for different phenotypes of CRS, we reviewed the advancement in the research of TGF-beta activation and its role in CRS pathogenesis, to provide insight into the CRS investigation in human.