Nephron deficit is not required for progressive proteinuria development in the Munich Wistar Frömter rat.

The Munich Wistar Frömter (MWF) rat represents a genetic model with an inherited nephron deficit and exhibits mild hypertension and progressive albuminuria, which is more pronounced in males than females. Previously, we demonstrated in a consomic strain that replacement of a quantitative trait locus on chromosome 6 normalized the nephron deficit and suppressed albuminuria development, suggesting a link between the two findings. Here we tested the role of a second major locus linked to albuminuria in MWF on chromosome 8 and generated the consomic strain MWF-8(SHR) by transfer of chromosome 8 from spontaneously hypertensive rats (SHR) into MWF. The early onset of albuminuria at 8 wk of age in MWF (>50-fold increase compared with SHR) was significantly suppressed in consomic animals, and the development of marked proteinuria at 32 wk significantly diminished. Total nephron number in consomic rats (23,771 +/- 1,352) and MWF (27,028 +/- 1,322) were similar and significantly lower (-36%) compared with SHR (36,979 +/- 1,352, P < 0.0001). The development of mild albuminuria in female MWF was also significantly diminished in MWF-8(SHR). Thus, the development of overt and mild albuminuria in male and female MWF rats is not a mandatory consequence of the inherited nephron deficit. The locus on chromosome 8 appears of interest, because its exchange between MWF and SHR protects against the development of albuminuria in MWF-8(SHR) animals despite their inherited nephron deficit and higher systolic blood pressure.

Protective effect of female gender on the development of albuminuria in a polygenetic rat model is enhanced further by replacement of a major autosomal QTL.

Clinical and experimental studies indicate that the progression of renal disease is faster in males than females. These observations are corroborated by a sexual dimorphism observed in the polygenetic MWF (Munich Wistar Frömter) rat model. The age-dependent spontaneous progression of increased UAE (urinary albumin excretion) in male MWF rats is influenced by multiple QTLs (quantitative trait loci). In contrast, female MWF rats only develop a slight increase in UAE, while the role of genetic factors for this phenotype is unknown. In the present study, we show that, compared with resistant SHRs (spontaneously hypertensive rats), both male and female MWF rats develop a significant increase in UAE at 24 weeks of age (P<0.0001), although blood pressures were lower compared with SHRs (P<0.0001). UAE was significantly higher in male (7-fold) compared with female MWF rats (162.6+/-15.9 compared with 24.0+/-5.5 mg/24 h respectively; P<0.0001), and only male MWF rats developed significant glomerulosclerosis and tubulointerstitial damage in the kidney (P<0.0001). To test the role of genetic factors in the development of low grade albuminuria in female MWF rats, we analysed the role of a major UAE QTL on rat chromosome 6. To this end, we analysed a consomic MWF-6(SHR) strain in which chromosome 6 from SHRs was introgressed into the MWF rat background. Time course analysis of UAE in females indicated that the small increase in UAE in MWF rats was fully suppressed by exchange of rat chromosome 6. Thus, taken together with previous studies in males, we show that RNO6 protects against the increase in albuminuria with age in both female and male MWF rats.

Development of overt proteinuria in the Munich Wistar Frömter rat is suppressed by replacement of chromosome 6 in a consomic rat strain.

In a cross between the Munich Wistar Frömter (MWF) rat and spontaneously hypertensive rats (SHR), a major quantitative trait locus (QTL) was identified on rat chromosome 6 (RNO6) that demonstrated the strongest linkage to albuminuria among several QTL identified. The QTL represented the only locus that is linked to both early-onset albuminuria and increased renal interstitial fibrosis in adult animals. A consomic MWF-6(SHR) strain in which chromosome 6 from SHR was introgressed into the MWF background therefore was generated to test the relevance of this QTL. Phenotype analysis at 8 wk of age revealed that early onset of albuminuria in MWF with a 55-fold elevation of urinary albumin excretion compared with SHR (P < 0.0001) was completely abolished in MWF-6(SHR). Time-course analysis until week 24 demonstrated only a moderate increase of urinary albumin excretion in MWF-6(SHR), whereas MWF reached levels in the nephrotic range (16.6 +/- 3.5 versus 162.6 +/- 16.0 mg/24 h; P < 0.0001). At this age, analysis of glomerulosclerosis, tubulointerstitial damage, renal interstitial fibrosis, and renal collagen III mRNA expression revealed a significant improvement of all parameters in MWF-6(SHR) compared with MWF (P < 0.05). At 32 wk, MWF but not MWF-6(SHR) demonstrated overt proteinuria (354.6 +/- 37.6 versus 48.8 +/- 13.2; P < 0.0001), whereas serum urea, cholesterol, and triglyceride concentrations were lower and creatinine clearance was higher in MWF-6(SHR) compared with MWF (P < 0.05). Therefore, although albuminuria in MWF is determined by a complex interplay of several QTL, our data demonstrate that genetic exchange of one locus on RNO6 leads to marked suppression of early-onset albuminuria and renal damage in MWF.