Leishmania is an obligate intracellular pathogen that invades phagocytic host cells. Approximately 30 different species of Phlebotomine sand flies can transmit this parasite either anthroponotically or zoonotically through their bites. Leishmaniasis affects poor people living around the Mediterranean Basin, East Africa, the Americas, and Southeast Asia. Affected regions are often remote and unstable, with limited resources for treating this disease. Leishmaniasis has been reported as one of the most dangerous neglected tropical diseases, second only to malaria in parasitic causes of death. People can carry some species of Leishmania for long periods without becoming ill, and symptoms depend on the form of the disease. There are many drugs and candidate vaccines available to treat leishmaniasis. For instance, antiparasitic drugs, such as amphotericin B (AmBisome), are a treatment of choice for leishmaniasis depending on the type of the disease. Despite the availability of different treatment approaches to treat leishmaniasis, therapeutic tools are not adequate to eradicate this infection. In the meantime, drug therapy has been limited because of adverse side effects and unsuccessful vaccine preparation. However, it can immediately make infections inactive. According to other studies, vaccination cannot eradicate leishmaniasis. There is no perfect vaccine or suitable drug to eradicate leishmaniasis completely. So far, no vaccine or drug has been provided to induce long-term protection and ensure effective immunity against leishmaniasis. Therefore, it is necessary that intensive research should be performed in drug and vaccine fields to achieve certain results.
BACKGROUND: In our previous studies, chronic treatment of rats with a new b b 3 -adrenoceptor agonist, CL 316,243, retarded diet-induced obesity and promoted thermogenesis in young animals and reversed established diet-induced obesity in older animals that continued to eat a high fat diet. Reversal of obesity was associated with shrinking of enlarged white adipocytes but the number of mature white adipocytes, which had not been increased by the diet, was not reduced. Drug-treatment induced appearance of abundant brown adipocytes in white adipose tissue (WAT) depots as well as hypertrophy of brown adipose tissue (BAT) in both lean and diet-induced obese rats. OBJECTIVES: To ®nd out whether the known hyperplasia of white adipocytes in the obese fa/fa rat could be reversed by CL 316,243-treatment and whether the grossly enlarged WAT depots of the obese fa/fa rat contain precursors to brown adipocytes. RESULTS: CL 316,243 infusion (1 mg/kg/d) reduced abdominal fat. The loss of fat was due to a decrease in white adipocyte size, with no loss of the markedly elevated number of adipocytes in the fa/fa rats. Resting metabolic rate increased by 40% in lean rats, by 70% in fa/fa rats. Food intake decreased in the hyperphagic fa/fa rats but did not change in lean rats. In both lean and fa/fa rats, a marked increase in protein content of retroperitoneal WAT was associated with appearance of abundant densely-stained brown adipocytes expressing uncoupling protein (UCP) but total number of cells (from DNA content) actually decreased. Hyperinsulinemia and hyperglycemia of fa/fa rats were reduced by treatment, indicating improved sensitivity to insulin. CONCLUSIONS: Abundant precursors to brown adipocytes are present in WAT depots of fa/fa rats and much of the exaggerated increase in resting metabolic rate induced by CL 316,243 occurs in these cells. This b b 3 -adrenoceptor agonist is an effective anti-obesity and anti-diabetic agent in fa/fa rats. It does not bring about disappearance of mature white adipocytes but does bring about a remodelling of WAT, with a marked change in cell composition.
Hepatitis C virus (HCV) is a major cause of chronic hepatitis and hepatocellular carcinoma worldwide. The purpose of this study was to determine how the HCV structural proteins affect the dynamic structural and functional properties of hepatocytes and measure the extra-hepatic manifestations induced by these viral proteins. A transgenic mouse model was established by expressing core, E1 and E2 proteins downstream of a CMV promoter. HCV RNA was detected using RT-PCR in transgenic mouse model tissues, such as liver, kidney, spleen and heart. Expression of the transgene was analysed by real-time PCR to quantify viral RNA in different tissues at different ages. Immunofluorescence analysis revealed the expression of core, E1 and E2 proteins predominantly in hepatocytes. Lower levels of protein expression were detected in spleen and kidneys. HCV RNA and viral protein expression increased in the liver with age. Histological analysis of liver cells demonstrated steatosis in transgenic mice older than 3 months, which was more progressed with age. Electron microscopy analysis revealed alterations in nuclei, mitochondria and endoplasmic reticulum. HCV structural proteins induce a severe hepatopathy in the transgenic mouse model. These mice became more prone to liver and lymphoid tumour development and hepatocellular carcinoma. In this model, the extra-hepatic effects of HCV, which included swelling of renal tubular cells, were mild. It is likely that the HCV structural proteins mediate some of the histological alterations in hepatocytes by interfering with lipid transport and liver metabolism.
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