Smoking accelerates renal cystic disease and worsens cardiac phenotype in Pkd1-deficient mice

Marciana V Sousa,Vera M Salemi,Bruno E Balbo,Maria C Irigoyen,Jessica A Freitas,Elieser H Watanabe,Luiz F Onuchic,Gilson M Murata,Renato A Hortegal,Leandro E Souza,Camila Rocon,Marcelo D Tavares,Andressa G Amaral

doi:10.1038/s41598-021-93633-7

Marciana V Sousa, Vera M Salemi + Show 11 more

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https://doi.org/10.1038/s41598-021-93633-7

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Journal: Scientific Reports	Publication Date: Jul 14, 2021
Citations: 9	License type: open-access

Affiliation: Universidade de São Paulo

Abstract

Smoking has been associated with renal disease progression in ADPKD but the underlying deleterious mechanisms and whether it specifically worsens the cardiac phenotype remain unknown. To investigate these matters, Pkd1-deficient cystic mice and noncystic littermates were exposed to smoking from conception to 18 weeks of age and, along with nonexposed controls, were analyzed at 13–18 weeks. Renal cystic index and cyst-lining cell proliferation were higher in cystic mice exposed to smoking than nonexposed cystic animals. Smoking increased serum urea nitrogen in cystic and noncystic mice and independently enhanced tubular cell proliferation and apoptosis. Smoking also increased renal fibrosis, however this effect was much higher in cystic than in noncystic animals. Pkd1 deficiency and smoking showed independent and additive effects on reducing renal levels of glutathione. Systolic function and several cardiac structural parameters were also negatively affected by smoking and the Pkd1-deficient status, following independent and additive patterns. Smoking did not increase, however, cardiac apoptosis or fibrosis in cystic and noncystic mice. Notably, smoking promoted a much higher reduction in body weight in Pkd1-deficient than in noncystic animals. Our findings show that smoking aggravated the renal and cardiac phenotypes of Pkd1-deficient cystic mice, suggesting that similar effects may occur in human ADPKD.

Highlights

Smoking has been associated with renal disease progression in Autosomal dominant polycystic kidney disease (ADPKD) but the underlying deleterious mechanisms and whether it worsens the cardiac phenotype remain unknown
After the establishment of our experimental groups, a surveillance protocol of genotype control identified that Nestincremediated Pkd[1] inactivation had gone germline in the colony, leading to the generation of some noncystic Pkd1flox/- and some cystic Pkd1flox/-:Nestincre mice. At this point we realized that the Pkd1flox/-:Nestincre mouse consists in a model closer to human ADPKD1 than Pkd1flox/flox:Nestincre, given its Pkd1-haploinsufficiency background
The groups included cystic mice exposed to smoking (CYS), noncystic animals exposed to smoking (NCS), cystic nonsmokers (CY) and noncystic nonsmokers (NC)

Summary

Introduction

Smoking has been associated with renal disease progression in ADPKD but the underlying deleterious mechanisms and whether it worsens the cardiac phenotype remain unknown. To investigate these matters, Pkd1-deficient cystic mice and noncystic littermates were exposed to smoking from conception to 18 weeks of age and, along with nonexposed controls, were analyzed at 13–18 weeks. Smoking increased renal fibrosis, this effect was much higher in cystic than in noncystic animals. Cardiac apoptosis or fibrosis in cystic and noncystic mice. Our findings show that smoking aggravated the renal and cardiac phenotypes of Pkd1-deficient cystic mice, suggesting that similar effects may occur in human ADPKD. Several studies revealed distinct aspects of cardiac structural alterations and/or dysfunction in Scientific Reports | (2021) 11:14443

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