63 research outputs found
Over-expression of adenosine deaminase in mouse podocytes does not reverse puromycin aminonucleoside resistance
<p>Abstract</p> <p>Background</p> <p>Edema in nephrotic syndrome results from renal retention of sodium and alteration of the permeability properties of capillaries. Nephrotic syndrome induced by puromycin aminonucleoside (PAN) in rats reproduces the biological and clinical signs of the human disease, and has been widely used to identify the cellular mechanisms of sodium retention. Unfortunately, mice do not develop nephrotic syndrome in response to PAN, and we still lack a good mouse model of the disease in which the genetic tools necessary for further characterizing the pathophysiological pathway could be used. Mouse resistance to PAN has been attributed to a defect in glomerular adenosine deaminase (ADA), which metabolizes PAN. We therefore attempted to develop a mouse line sensitive to PAN through induction of normal adenosine metabolism in their podocytes.</p> <p>Methods</p> <p>A mouse line expressing functional ADA under the control of the podocyte-specific podocin promoter was generated by transgenesis. The effect of PAN on urinary excretion of sodium and proteins was compared in rats and in mice over-expressing ADA and in littermates.</p> <p>Results</p> <p>We confirmed that expression of ADA mRNAs was much lower in wild type mouse than in rat glomerulus. Transgenic mice expressed ADA specifically in the glomerulus, and their ADA activity was of the same order of magnitude as in rats. Nonetheless, ADA transgenic mice remained insensitive to PAN treatment in terms of both proteinuria and sodium retention.</p> <p>Conclusions</p> <p>Along with previous results, this study shows that adenosine deaminase is necessary but not sufficient to confer PAN sensitivity to podocytes. ADA transgenic mice could be used as a background strain for further transgenesis.</p
The A985 to G mutation of the medium-chain acyl-CoA dehydrogenase gene and sudden infant death syndrome in Normandy
A breakthrough in the efficiency of contact DNA insecticides: rapid high mortality rates in the sap-sucking insects Dynaspidiotus britannicus Comstock and Unaspis euonymi Newstead
In this short communication describing experiments carried out on the larvae of two
insects, Unaspis euonymi Comstock (feeding on Euonymus japonicus Thunb.) and
Dynaspidiotus britannicus Newstead (feeding on Laurus nobilis L.), we evaluate for the first
time the efficiency of using DNA insecticides in the control of sap-sucking insects, including
armored scale insects. Over a period of 10 days, high insect mortality was detected in both
U. euonymi and D. britannicus, accompanied by a significant decrease in the concentration
of target RNAs. At the same time, no visible changes were observed when the leaves of the
host plants were subjected to treatment with DNA insecticides for one month. The results
show the high efficiency of DNA insecticides used against hemipteran insect pests. It is
noteworthy that the high efficiency of DNA insecticides and their low cost in comparison
with RNA preparations provides a safe and extremely promising potential vehicle for the
control of sap-sucking insects
Highest ADA Expressing Mouse Tissues Also Exhibit Cell-Type Specific Coordinate Up-Regulation of Purine Degradative Enzymes
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