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Query: UNIPROT:P42345 (
mTOR
)
26,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic kidney disease is often complicated by uremic cardiomyopathy that consists of left ventricular hypertrophy and interstitial fibrosis. It is thought that hypertension and volume overload are major causes of this disease, but here we sought to identify additional mechanisms using a mouse model of
chronic renal insufficiency
. Mice with a remnant kidney developed an elevated blood urea nitrogen by 1 week, as expected, and showed progressive cardiac hypertrophy and fibrosis at 4 and 8 weeks even though their blood pressures were not elevated nor did they show signs of volume overload. Cardiac extracellular signal-regulated kinase (ERK) was activated in the uremic animals at 8 weeks. There was also an increased phosphorylation of S6 kinase, which is often mediated by activation of the
mammalian target of rapamycin
(
mTOR
). To test the involvement of this pathway, we treated these uremic mice with rapamycin and found that it reduced cardiac hypertrophy. Reduction of blood pressure, however, by hydralazine had no effect. These studies suggest that uremic cardiomyopathy is mediated by activation of a pathway that involves the
mTOR
pathway.
...
PMID:Uremic cardiac hypertrophy is reversed by rapamycin but not by lowering of blood pressure. 1933 17
Both acute and
chronic renal insufficiency
are highly prevalent in liver transplant recipients. The etiology is multifactorial, with administration of nephrotoxic drugs playing a major role. Calcineurin inhibitors (CNI) (cyclosporin and tacrolimus) are the mainstay of immunosuppressive therapy in liver transplantation and produce acute and chronic nephrotoxicity. There are three main strategies to prevent renal injury: a) reduction of CNI to minimal levels accompanied by the use of an adjuvant drug such as azathioprine, mycophenolate mofetil or
mammalian target of rapamycin
(
mTOR
) inhibitors; b) complete withdrawal of CNI, using non-nephrotoxic drugs in their place; and c) use of protocols without CNI from the outset. The present article reviews these three strategies as well as their influence on renal function and on the results of liver transplantation.
...
PMID:[Immunosuppression in liver transplantation: renoprotective regimens]. 2145 89
The spectrum of polycystic kidney disease (PKD) comprises a family of inherited syndromes defined by renal cyst formation and growth, progressive renal function loss and variable extrarenal manifestations. The most common form, autosomal-dominant PKD is caused by mutations in one of two genes, PKD1 or PKD2. Recent developments in genomic and proteomic medicine have resulted in the discovery of novel genes implicated in the wide variety of less frequent, recessive PKD syndromes. Cysts are the disease, and overall cystic burden, measured by MRI as total kidney volume, is being established as the best available biomarker of disease progression. Current state-of-the-art therapy is aimed at quality treatment for
chronic renal insufficiency
and cyst-related complications. Recent therapeutic studies have focused on mechanisms reducing intracellular cyclic AMP levels, blocking the renin-angiotensin-aldosterone system and inhibiting the
mTOR
-signaling pathway. PKD therapies with vasopressin antagonists and somatostatin analogues result in the reduction of intracellular cAMP levels and have shown limited clinical success, but side effects are prominent. Similarly,
mTOR
pathway inhibition has not shown significant therapeutic benefits. While the HALT-PKD study will answer questions by the end of 2014 about the utility of renin-angiotensin-aldosterone system blockade and aggressive blood pressure control, the next generation of PKD therapy studies targeting proliferative mechanisms of cyst expansion are already under way. Advances in research on the molecular mechanisms of cystogenesis will help design novel targeted PKD therapies in the future.
...
PMID:Therapeutic advances in the treatment of polycystic kidney disease. 2557 84
