Simvastatin impairs murine melanoma growth

<p>Abstract</p> <p>Background</p> <p>Statins induces cell cycle arrest, apoptosis, reduction of angiogenic factors, inhibition of the endothelial growth factor, impairing tissue adhesion and attenuation of the resistance mechanisms. The aim of this study was evaluate the anti-tumoral activity of simvastatin in a B16F10 melanoma-mouse model.</p> <p>Methods</p> <p>Melanoma cells were treated with different concentrations of simvastatin and assessed by viability methods. Melanoma cells (5 × 10⁴) were implanted in two month old C57Bl6/J mice. Around 7 days after cells injection, the oral treatments were started with simvastatin (5 mg/kg/day, p.o.). Tumor size, hematological and biochemical analyses were evaluated.</p> <p>Results</p> <p>Simvastatin at a concentration of 0.8 μM, 1.2 μM and 1.6 μM had toxic effect. Concentration of 1.6 μM induced a massive death in the first 24 h of incubation. Simvastatin at 0.8 μM induces early cell cycle arrest in G0/G1, followed by increase of hypodiploidy. Tumor size were evaluated and the difference of treated group and control, after ten days, demonstrates that simvastatin inhibited the tumor expansion in 68%.</p> <p>Conclusion</p> <p>Simvastatin at 1.6 μM, presented cytototoxicity after 72 h of treatment, with an intense death. <it>In vivo</it>, simvastatin being potentially useful as an antiproliferative drug, with an impairment of growth after ten days.</p

Development of a synthetic 7-ketocholesterol- rich emulsion resembling chylomicrons

Lipid emulsions that mimic natural lipoproteins help to understand the metabolism and the constitutional organization of circulating lipids. Chylomicrons synthesised by enterocyte cells usually contain oxysterols such as 7-ketocholesterol (7-KC). Here we describe the development of a 7-KC-containing emulsion as a model for oxisterol-rich chylomicron. Different amounts of 7-KC were used. Emulsion characteristics as effective diameter, lipid saturation with radiolabeled lipids was evaluated. In conclusion, the production of a synthetic 7-KC-rich emulsion resembling hylomicrons was feasible, being a model for in vivo metabolism studies

Biological characteristics of mesenchymal stem cells

Células-tronco são células indiferenciadas. Como tal, apresentam uma série de características que as tornam candidatas à utilização terapêutica. As principais características das células-tronco são a capacidade de autorrenovação e de se diferenciarem em diversos tipos celulares. Desta forma, acredita-se que células-tronco presentes nos diferentes tecidos tenham papel regenerativo quando estes sofrem uma lesão ou injúria. Entre os tecidos conhecidos por apresentarem células-tronco após a vida pós-natal, a medula óssea foi a mais estudada, por muitos anos, como fonte tanto de células-tronco hematopoéticas quanto de células-tronco mesenquimais, também denominadas de células mesenquimais estromais da medula óssea ou células estromais mesenquimais multipotentes. Estas células são um grupo de células clonogênicas, presentes no estroma da medula óssea, que, quando submetidas a diferentes estímulos apropriados, são capazes de se diferenciarem em várias linhagens de células, como a osteogênica, a condrogênica e a adipogênica e, possivelmente, em outros tipos celulares não mesodérmicos, como células neurais ou hepatócitos. Nesta revisão, as principais características das células-tronco mesenquimais serão abordadas, incluindo os marcadores moleculares e de membrana, as características de divisão e de diferenciação, a heterogeneidade e as aplicações clínicas potenciais.Stem cells are undifferentiated cells. They show various characteristics that make them suitable for clinical applications. The main stem cell characteristics are their capacity of autorenewal and of differentiation into different cell lines so it is quite possible that stem cells in different tissues exhibit a regenerative role when these tissues are injured. Bone marrow is the best studied tissue as a source of hematopoietic stem cells as well as mesenchymal stem cells (also known as mesenchymal stromal cells or mesenchymal stromal multipotent cells); clonogenic cells in the bone marrow stroma. They are able to differentiate under specific stimuli in several cell lines including osteogenic, chondrogenic and adipogenic cells, and probably in other nonmesodermic cell lines such as neural cells or hepatocytes. Here the main characteristics of mesenchymal stem cells will be discussed, including the molecular and membrane markers, the division and differentiation properties, the heterogeneity, and the potential clinical applications

Características biológicas das células-tronco mesenquimais Biological characteristics of mesenchymal stem cells

Células-tronco são células indiferenciadas. Como tal, apresentam uma série de características que as tornam candidatas à utilização terapêutica. As principais características das células-tronco são a capacidade de autorrenovação e de se diferenciarem em diversos tipos celulares. Desta forma, acredita-se que células-tronco presentes nos diferentes tecidos tenham papel regenerativo quando estes sofrem uma lesão ou injúria. Entre os tecidos conhecidos por apresentarem células-tronco após a vida pós-natal, a medula óssea foi a mais estudada, por muitos anos, como fonte tanto de células-tronco hematopoéticas quanto de células-tronco mesenquimais, também denominadas de células mesenquimais estromais da medula óssea ou células estromais mesenquimais multipotentes. Estas células são um grupo de células clonogênicas, presentes no estroma da medula óssea, que, quando submetidas a diferentes estímulos apropriados, são capazes de se diferenciarem em várias linhagens de células, como a osteogênica, a condrogênica e a adipogênica e, possivelmente, em outros tipos celulares não mesodérmicos, como células neurais ou hepatócitos. Nesta revisão, as principais características das células-tronco mesenquimais serão abordadas, incluindo os marcadores moleculares e de membrana, as características de divisão e de diferenciação, a heterogeneidade e as aplicações clínicas potenciais.Stem cells are undifferentiated cells. They show various characteristics that make them suitable for clinical applications. The main stem cell characteristics are their capacity of autorenewal and of differentiation into different cell lines so it is quite possible that stem cells in different tissues exhibit a regenerative role when these tissues are injured. Bone marrow is the best studied tissue as a source of hematopoietic stem cells as well as mesenchymal stem cells (also known as mesenchymal stromal cells or mesenchymal stromal multipotent cells); clonogenic cells in the bone marrow stroma. They are able to differentiate under specific stimuli in several cell lines including osteogenic, chondrogenic and adipogenic cells, and probably in other nonmesodermic cell lines such as neural cells or hepatocytes. Here the main characteristics of mesenchymal stem cells will be discussed, including the molecular and membrane markers, the division and differentiation properties, the heterogeneity, and the potential clinical applications

The phylogeography of African Brazilians

Background/Aims: Approximately four million Africans were taken as slaves to Brazil, where they interbred extensively with Amerindians and Europeans. We have previously shown that while most White Brazilians carry Y chromosomes of European origin, they display high proportions of African and Amerindian mtDNA lineages, because of sex-biased genetic admixture. Methods: We studied the Y chromosome and mtDNA haplogroup structure of 120 Black males from Sao Paulo, Brazil. Results: Only 48% of the Y chromosomes, but 85% of the mtDNA haplogroups were characteristic of sub-Saharan Africa, confirming our previous observation of sexually biased mating. We mined literature data for mtDNA and Y chromosome haplogroup frequencies for African native populations from regions involved in Atlantic Slave Trade. Principal Components Analysis and Bayesian analysis of population structure revealed no genetic differentiation of Y chromosome marker frequencies between the African regions. However, mtDNA examination unraveled considerable genetic structure, with three clusters at Central-West Africa, West Africa and Southeast Africa. A hypothesis is proposed to explain this structure. Conclusion: Using these mtDNA data we could obtain for the first time an estimate of the relative ancestral contribution of Central-West (0.445), West (0.431) and Southeast Africa (0.123) to African Brazilians from Sao Paulo. These estimates are consistent with historical information. Copyright (c) 2008 S. Karger AG, Basel

Células-tronco do líquido amniótico Amniotic fluid stem cells

Desde o primeiro isolamento e cultivo de células-tronco embrionárias humanas, há mais de 10 anos, seu uso na pesquisa e terapia foi inibida por considerações éticas complexas e pelo risco de transformação maligna destas células indiferenciadas após transplante no paciente. As células-tronco adultas são eticamente aceitas e o risco de transformação maligna é muito baixo. Entretanto, seu potencial de diferenciação e sua capacidade proliferativa são limitados. Cerca de 6 anos atrás, a descoberta de célulastronco no líquido amniótico que expressavam Oct-4, um marcador específico de pluripotencialidade, com alta capacidade de proliferação e diferenciação, iniciou um novo campo promissor na área das células-tronco. Estas células têm potencial de se diferenciar em células dos três folhetos germinativos. Não formam tumores in vivo e não levantam os questionamentos éticos associados com as células-tronco embrionárias humanas. Futuras investigações revelarão se as células-tronco do líquido amniótico realmente irão representar um tipo intermediário com vantagens em relação tanto às células-tronco embrionárias quanto às adultas. Este artigo faz uma revisão acerca destes tópicos e das características biológicas das células-tronco do líquido amniótico.Since the first successful isolation and cultivation of human embryonic stem cells about 10 years ago, their use for research and therapy has been constrained by complex ethical considerations as well as by the risk of development of malignancies of undifferentiated embryonic stem cells after transplantation into the patient. Adult stem cells are ethically acceptable and the risk of tumor development is low. However, their differentiation potential and proliferative capacity are limited. About 6 years ago, the discovery of Oct-4 expressing amniotic fluid stem cells, a specific marker of pluripotency, with a high proliferative capacity, and multilineage differentiation potential, initiated a promising field of research. These cells, indeed, have the potential to differentiate into cells of all three embryonic germ layers. They do not form tumors in vivo and do not raise ethical concerns. Further investigation will reveal whether these cells really are an intermediate cell type with advantages over both embryonic and adult stem cells. This article reviews the biological characteristics of amniotic fluid stem cells

Lipid Transfer to HDL is Higher in Marathon Runners than in Sedentary Subjects, but is Acutely Inhibited During the Run

Although exercise increases HDL-cholesterol, exercise-induced changes in HDL metabolism have been little explored. Lipid transfer to HDL is essential for HDL's role in reverse cholesterol transport. We investigated the effects of acute exhaustive exercise on lipid transfer to HDL. We compared plasma lipid, apolipoprotein and cytokine levels and in vitro transfer of four lipids from a radioactively labeled lipid donor nanoemulsion to HDL in sedentary individuals (n = 28) and in marathon runners (n = 14) at baseline, immediately after and 72 h after a marathon. While HDL-cholesterol concentrations and apo A1 levels were higher in marathon runners, LDL-cholesterol, apo B and triacylglycerol levels were similar in both groups. Transfers of non-esterified cholesterol [6.8 (5.7-7.2) vs. 5.2 (4.5-6), p = 0.001], phospholipids [21.7 (20.4-22.2) vs. 8.2 (7.7-8.9), p = 0.0001] and triacylglycerol [3.7 (3.1-4) vs. 1.3 (0.8-1.7), p = 0.0001] were higher in marathon runners, but esterified-cholesterol transfer was similar. Immediately after the marathon, LDL- and HDL-cholesterol concentrations and apo A1 levels were unchanged, but apo B and triacylglycerol levels increased. Lipid transfer of non-esterified cholesterol [6.8 (5.7-7.2) vs. 5.8 (4.9-6.6), p = 0.0001], phospholipids [21.7 (20.4-22.2) vs. 19.1 (18.6-19.3), p = 0.0001], esterified-cholesterol [3.2 (2.2-3.8) vs. 2.3 (2-2.9), p = 0.02] and triacylglycerol [3.7 (3.1-4) vs. 2.6 (2.1-2.8), p = 0.0001] to HDL were all reduced immediately after the marathon but returned to baseline 72 h later. Running a marathon increased IL-6 and TNF-alpha levels, but after 72 h these values returned to baseline. Lipid transfer, except esterified-cholesterol transfer, was higher in marathon runners than in sedentary individuals, but the marathon itself acutely inhibited lipid transfer. In light of these novel observations, further study is required to clarify how these metabolic changes can influence HDL composition and anti-atherogenic function.Fundacao de Amparo a Pesquisa de Sao Paulo (FAPESP), Sao Paulo, BrazilFundacao de Amparo a Pesquisa de Sao Paulo (FAPESP), Sao Paulo, BrazilConselho Nacional de Desenvolvimanto Cientifico e Tecnologico (CNPq), Brasilia, Brazil [475819/2010-1]Conselho Nacional de Desenvolvimanto Cientifico e Tecnologico (CNPq), Brasilia, Brazi

Polymorphisms In The Methylenetetrahydrofolate Reductase And Methionine Synthase Reductase Genes And Homocysteine Levels In Brazilian Children.

Hyperhomocysteinemia is a risk factor for thrombosis, and methylenetetrahydrofolate reductase (MTHFR) and methionine synthase reductase (MTRR) polymorphisms, folate, and B12 levels could contribute to plasma homocysteine (Hcy) variation. Although well established in adults, few studies have been performed in childhood. In this study, we investigated association of polymorphisms C677T and A1298C in the MTHFR gene and A66G in the MTRR gene with Hcy levels in children. These polymorphisms, as well as Hcy, folate, and vitamin B12 levels were investigated in 220 normal children with ages ranging from 1 to 8 years. Plasma Hcy, folate, and vitamin B12 levels were normal in all children. None of the polymorphisms could be considered an independent risk factor for hyperhomocysteinemia during childhood. The median Hcy levels in 37 children (17%) doubly heterozygous for C677T and A1298C mutations in the MTHFR gene were not different from the other genotypes. However, the association of the different genotypes with Hcy, folate, and vitamin B12 levels demonstrated significant P-values. The folate levels demonstrated a statistically significant decrease (P = 0.0477) from the C677T mutation in the MTHFR gene (TT genotype) when compared to the other groups. Folate was the only independent risk factor for hyperhomocysteinemia. Thus, monitoring the concentrations of folate would be more helpful for evaluating hyperhomocysteinemia and for preventing cardiovascular disease.128A256-6