Vascular transcriptional and metabolic changes precede progressive intra-renal microvascular rarefaction in autosomal dominant polycystic kidney disease

  1. Gizem Yilmaz
  2. Santu K. Singha
  3. Bansi Savaliya
  4. Ahmed Abdelfattah
  5. Walaa Elsekaily
  6. Xiaohong Xu
  7. Youwen Zhang
  8. Christian Hanna
  9. Marie C. Hogan
  10. Alejandro R. Chade
  11. Alfonso Eirin
  12. Maria V. Irazabal
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Abstract

Background

The mechanisms contributing to progressive kidney damage in autosomal dominant polycystic kidney disease (ADPKD) remain unclear. Renal microvascular (MV) rarefaction plays an important role in kidney disease, but its natural history, underlying mechanisms, and contributions to renal disease progression in ADPKD remain unknown. We hypothesized that intrarenal MV rarefaction is present early on and is preceded by vascular transcriptional and metabolic changes.

Methods

Pkd1 RC/RC and WT mice (n=16 each) were studied at 1, 6, and 12 months. Total kidney volume (TKV) was measured in vivo (MRI), whereas renal MV architecture (3D-micro-CT), capillary density, perivascular fibrosis, and histomorphometric parameters were assessed ex vivo . In randomly selected Pkd1 RC/RC and WT kidneys (n=5, each/timepoint), mRNA-sequencing was performed to identify differentially expressed vasculature-related genes (DEGs). Next, in young individuals with ADPKD and matched controls (n=10 each), plasma cellular energy metabolites were determined (LC-MS/MS), validated in an extended cohort (n=32 and n=16, respectively), and correlated with markers of disease severity and progression. Gene–metabolite interaction networks were generated to integrate DEGs in Pkd1 RC/RC at 1 month with metabolites dysregulated in individuals with ADPKD.

Results

Renal MV density was preserved at 1 month but progressively decreased at 6 and 12 months, associated with capillary loss and perivascular fibrosis. A total of 110, 48, and 201 DEGs were identified at 1, 6, and 12 months, respectively. Plasma gamma-aminobutyric acid (GABA) and homocysteine (Hcy) levels were higher in individuals with ADPKD versus controls, interacted with DEGs implicated in inflammatory and innate immune response and Hcy metabolism, and correlated with TKV and renal blood flow.

Conclusions

Our data demonstrates that intrarenal MV abnormalities present early in ADPKD and are preceded by vascular transcriptional and metabolic changes. The renal microcirculation may constitute an important therapeutic target in ADPKD, and its underlying biomarkers may serve to monitor its progression.

TRANSLATIONAL STATEMENT

We provide the first longitudinal and most comprehensive analysis of the intrarenal microvascular network in a slowly progressive orthologous model of ADPKD and integrate the findings with studies in a young cohort of ADPKD individuals. Our integrated preclinical and clinical data identify vasculature-related pathways that could be targeted for therapeutic interventions and contribute promising, noninvasive biomarkers in patients with ADPKD. Furthermore, because alterations of the intrarenal microcirculation may affect drug delivery, a better understanding of its longitudinal changes may aid in treatment management.

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