Chun-Cheng Hou scite author profile

Transforming growth factor (TGF)-beta1 has been shown to play a critical role in hypertensive nephropathy. We hypothesized that blocking TGF-beta1 signaling could attenuate renal fibrosis in a rat model of remnant kidney disease. Groups of six rats were subjected to 5/6 nephrectomy and received renal arterial injection of a doxycycline-regulated Smad7 gene or control empty vector using an ultrasound-microbubble-mediated system. Smad7 transgene expression within the kidney was tightly controlled by the addition of doxycycline in the daily drinking water. All animals were euthanized at week 4 for renal functional and histological examination. Hypertension of equivalent magnitude (190 to 200 mmHg) developed in both Smad7- and empty vector-treated rats. However, treatment with Smad7 substantially inhibited Smad2/3 activation and prevented progressive renal injury by inhibiting the rise of 24-hour proteinuria (P < 0.001) and serum creatinine (P < 0.001), preserving creatinine clearance (P < 0.05), and attenuating renal fibrosis and vascular sclerosis such as collagen I and III expression (P < 0.01) and myofibroblast accumulation (P < 0.001). In conclusion, TGF-beta/Smad signaling plays a critical role in renal fibrosis in a rat remnant kidney model. The ability of Smad7 to block Smad2/3 activation and attenuate renal and vascular sclerosis demonstrates that ultrasound-mediated Smad7 gene therapy may be a useful therapeutic strategy for the prevention of renal fibrosis in association with hypertension.

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Blockade of NFκB activation and renal inflammation by ultrasound-mediated gene transfer of Smad7 in rat remnant kidney

Hou

Wang

et al. 2005

Kidney International

102

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TGF-beta/Smad7 signaling plays a critical role in the resolution of renal inflammation in rat remnant kidney model. Inhibition of NFkappaB activation is a key mechanism by which Smad7 suppresses renal inflammation, which suggests a crosstalk pathway between NFkappaB and Smad7. The ability of Smad7 to inhibit renal inflammation indicates that ultrasound-microbubble-mediated Smad7 gene therapy may represents a new therapeutic strategy for glomerulonephritis.

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Chun-Cheng Hou

Ultrasound-Microbubble-Mediated Gene Transfer of Inducible Smad7 Blocks Transforming Growth Factor-β Signaling and Fibrosis in Rat Remnant Kidney

Blockade of NFκB activation and renal inflammation by ultrasound-mediated gene transfer of Smad7 in rat remnant kidney

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