Low nephron endowment increases susceptibility to renal stress and chronic kidney disease
Pamela I. Good, Ling Li, Holly A. Hurst, Ileana Serrano Herrera, Katherine Xu, Meenakshi Rao, David A. Bateman, Qais Al-Awqati, Vivette D. D’Agati, Frank Costantini, Fangming Lin
Pamela I. Good, Ling Li, Holly A. Hurst, Ileana Serrano Herrera, Katherine Xu, Meenakshi Rao, David A. Bateman, Qais Al-Awqati, Vivette D. D’Agati, Frank Costantini, Fangming Lin
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Research Article Nephrology

Low nephron endowment increases susceptibility to renal stress and chronic kidney disease

Abstract

Preterm birth results in low nephron endowment and increased risk of acute kidney injury (AKI) and chronic kidney disease (CKD). To understand the pathogenesis of AKI and CKD in preterm humans, we generated potentially novel mouse models with a 30%–70% reduction in nephron number by inhibiting or deleting Ret tyrosine kinase in the developing ureteric bud. These mice developed glomerular and tubular hypertrophy, followed by the transition to CKD, recapitulating the renal pathological changes seen in humans born preterm. We injected neonatal mice with gentamicin, a ubiquitous nephrotoxic exposure in preterm infants, and detected more severe proximal tubular injury in mice with low nephron number compared with controls with normal nephron number. Mice with low nephron number had reduced proliferative repair with more rapid development of CKD. Furthermore, mice had more profound inflammation with highly elevated levels of MCP-1 and CXCL10, produced in part by damaged proximal tubules. Our study directly links low nephron endowment with postnatal renal hypertrophy, which in this model is maladaptive and results in CKD. Underdeveloped kidneys are more susceptible to gentamicin-induced AKI, suggesting that AKI in the setting of low nephron number is more severe and further increases the risk of CKD in this vulnerable population.

Authors

Pamela I. Good, Ling Li, Holly A. Hurst, Ileana Serrano Herrera, Katherine Xu, Meenakshi Rao, David A. Bateman, Qais Al-Awqati, Vivette D. D’Agati, Frank Costantini, Fangming Lin

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Figure 2

Ret deletion results in decreased Nglom in a time-dependent manner.

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Ret deletion results in decreased Nglom in a time-dependent manner. Pre...
Pregnant female mice carrying the Hoxb7-rtTA;tet-O-Cre;Retflox-V805A transgenes were crossed with male mice of the same genotype and exposed to doxycycline (Dox) in the drinking water beginning E15.5, E16.5, or E17.5 through delivery. Offspring carrying all transgenes are named RetUB del, while littermates carrying tet-O-Cre; Retflox-V805A without Hoxb7rtTA are controls. (A) UB-specific deletion of Ret during kidney development leads to significant reduction of Nglom with greater reduction on earlier exposure (71% at E15.5, n = 10; 60% at E16.5, n = 47; and 36% at E17.5, n = 10; compared with controls, n = 18). *P < 0.0001, 1-way ANOVA followed by Tukey’s test for multiple comparisons; all groups significantly differed from controls. (B) PAS staining of P1 kidneys from RetUB del pups exposed to Dox E16.5 shows no tubular dilatation or hydronephrosis (imaged at 33×). (C) Ret deletion (starting E16.5) resulted in decreased UB branching and truncated UB tips with areas of absent Six2-expressing cap mesenchyme. Whole-mount P1 kidneys were labeled with antibody to calbindin to identify UB and its derivatives (green) or antibody to Six2 to identify nephron progenitors in the cap mesenchyme (red), followed by optical clearing prior to confocal microscopy and 3-D image reconstruction (100× magnification). (D) PAS staining of adult RetUB del mouse kidneys (6 weeks old) shows thinner cortex with decreased glomerular number (40× magnification). (E) Adult kidney/body weight ratio in RetUB del mice (Dox E16.5) is significantly lower than age-matched littermate controls. *P < 0.001, Welch’s t test with n = 16 controls and n = 30 RetUB del mice.