The present study was undertaken to determine the effect of chronic treatment with two sublethal doses of Dimethoate (organo-phosphorus) or Deltamethrin (pyrethroid) on body weight and semen characteristics in adult male rabbits. Pesticide treatment resulted in a decline in body weight, libido, ejaculate volume, sperm concentration and semen initial fructose; and an increase in abnormal and dead sperm and methylene blue reduction time. In this regard Dimethoate showed greater effects than Deltamethrin. The hazardous effect of these pesticides on semen quality continued during the post-treatment period, and was dose-dependent. This deleterious effect on sperm formation together with the decline in libido suggest a decrease in testosterone secretion by pesticide treatment.
The in vivo effect of dimethoate and deltamethrin on body and organ weights, serum proteins and on plasma acetylcholinesterase (AChE), aromatic esterase and ATPase were examined in growing male rabbits throughout five months period. Both compounds had no significant effect on body weight; however, adrenal, testis & pituitary weights decreased (P less than 0.01); the liver and spleen weights increased (P less than 0.01) in a dose dependent manner. Serum total proteins and globulin decreased (P less than 0.01) in a dose dependent trend, while serum albumin was not greatly affected. AChE activity was increased (P less than 0.01) after 1 month of treatment with the two doses of dimethoate and deltamethrin; thereafter, AChE activity showed 40% inhibition of the control level. The activity of aromatic esterase increased markedly after the first month, then declined gradually until the fifth month. High dose of dimethoate markedly inhibited this enzyme particularly after the 5th month of treatment. Both doses of deltamethrin increased ATPase activity after the first month of treatment, then the ATPase activity was normal. Dimethoate inhibited ATPase particularly at the end of treatment in a dose dependent manner.
Background: Expression of insulin in hepatocytes by hepatic gene therapy is a promising treatment of diabetes. The conversion of immature proinsulin to mature insulin occurs only in cells that contain the enzymes responsible for the cleavage of proinsulin to insulin.Results: I engineered rat proinsulin with the sites of cleavage (Furin Cleavable Sites) using site directed mutagenesis for removal of C-peptide to form the two chains A and B for mature insulin production. This engineered proinsulin was constructed into a non-viral expressing vector and regulated by glucose transporter-2 promoter to control the amount of mature insulin expressed, and to modulate the amount of glucose found in hepatocytes. The mature, active and regulated expressed insulin was secreted according to the amount of glucose regulated by the glucose transporter-2 promoter. Concolusion: For successful hepatic insulin gene therapy, insulin production must be tightly coupled to glucose concentration. Hepatocytes are excellent target cells for insulin gene therapy since, they are similar to pancreatic beta cells, they have the ability to rapidly adapt to blood glucose concentrations as they possess glucose-sensing components, such as Glucose Transporter-2.
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