BackgroundIt has been proposed that peroxisome proliferator-activated receptor-gamma
(PPAR gamma) agonists might reduce renal fibrosis, however, several studies had contradictory
results. Moreover, the possible interaction of TGF-beta(1), PPAR gamma, and transcription
factors in renal fibrosis have not been investigated. We hypothesized that oral pioglitazone
treatment would inhibit TGF-beta-driven renal fibrosis and its progression, by modulating
profibrotic transcription factors in TGF-beta(1) transgenic mice.MethodsMale C57Bl/6J
mice (control, CTL, n=14) and TGF-beta overexpressing transgenic mice (TGF beta, n=14,
having elevated plasma TGF-beta(1) level) were divided in two sets at 10weeks of age.
Mice in the first set were fed with regular rodent chow (CTL and TGF beta, n=7/group).
Mice in the second set were fed with chow containing pioglitazone (at a dose of 20mg/kg/day,
CTL+Pio and TGF beta+Pio, n=7/group). After 5weeks of treatment, blood pressure was
assessed and urine samples were collected, and the kidneys were analyzed for histology,
mRNA and protein expression.ResultsTGF-beta(1) induced glomerulosclerosis and tubulointerstitial
damage were significantly reduced by pioglitazone. Pioglitazone inhibited renal mRNA
expression of all the profibrotic effectors: type-III collagen, TGF-beta(1), CTGF
and TIMP-1, and alike transcription factors cFos/cJun and protein expression of EGR-1,
and STAT3 protein phosphorylation.ConclusionsOral administration of PPAR gamma agonist
pioglitazone significantly reduces TGF-beta(1)-driven renal fibrosis, via the attenuation
of EGR-1, STAT3 and AP-1. This implies that PPAR gamma agonists might be effective
in the treatment of chronic kidney disease patients.
