The Expression of RAAS Key Receptors, Agtr2 and Bdkrb1, Is Downregulated at an Early Stage in a Rat Model of Wolfram Syndrome.

Marite Punapart,Toomas Jagomäe,Allen Kaasik,Lieve Moons,Lies De Groef,Anton Terasmaa,Mario Plaas,Mailis Liiv,Silvia Kirillov,Riin Reimets,Eero Vasar,Kadri Seppa

doi:10.3390/genes12111717

Marite Punapart, Toomas Jagomäe + Show 10 more

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https://doi.org/10.3390/genes12111717

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Journal: Genes	Publication Date: Oct 28, 2021
Citations: 2	License type: CC BY 4.0

Affiliation: University of Tartu, KU Leuven

Abstract

Wolfram syndrome (WS) 1 is a rare monogenic neurodegenerative disorder caused by mutations in the gene encoding WFS1. Knowledge of the pathophysiology of WS is incomplete and to date, there is no treatment available. Here, we describe early deviations in the renin-angiotensin-aldosterone system (RAAS) and bradykinin pathway (kallikrein kinin system, KKS) observed in a rat model of WS (Wfs1 KO) and the modulative effect of glucagon-like peptide-1 receptor agonist liraglutide (LIR) and anti-epileptic drug valproate (VPA), which have been proven effective in delaying WS progression in WS animal models. We found that the expression of key receptors of the RAAS and KKS, Agtr2 and Bdkrb1, were drastically downregulated both in vitro and in vivo at an early stage in a rat model of WS. Moreover, in Wfs1, KO serum aldosterone levels were substantially decreased and bradykinin levels increased compared to WT animals. Neither treatment nor their combination affected the gene expression levels seen in the Wfs1 KO animals. However, all the treatments elevated serum aldosterone and decreased bradykinin in the Wfs1 KO rats, as well as increasing angiotensin II levels independent of genotype. Altogether, our results indicate that Wfs1 deficiency might disturb the normal functioning of RAAS and KKS and that LIR and VPA have the ability to modulate these systems.

Highlights

Wolfram syndrome (WS) is a rare monogenic progressive neurodegenerative disease mainly characterized by juvenile-onset diabetes mellitus, diabetes insipidus, loss of vision due to optic nerve atrophy, sensorineural deafness and retinal ganglion cell death [1,2]
Agtr2, Agtr1b and Bdkrb1 Are Downregulated in a Rat Model of Wolfram Syndrome
It was found that Agtr2, Agtr1b and Bdkrb1 mRNA expression levels, both in the lungs and hearts of the WS rats, were substantially lower compared to their WT littermates (Figrues 1d,f,g and 2d,f,g)

Summary

Introduction

Wolfram syndrome (WS) is a rare monogenic progressive neurodegenerative disease mainly characterized by juvenile-onset diabetes mellitus, diabetes insipidus, loss of vision due to optic nerve atrophy, sensorineural deafness and retinal ganglion cell death [1,2] All of these symptoms are characteristic of the rat model of WS (Wfs KO) described by our research group [3]. In vitro VPA reduces apoptosis in cell lines carrying autosomal dominant WFS1 mutations and acute treatment with VPA improves glucose tolerance in Wfs1-deficient mice [15,16]. It is not fully known how LIR and VPA inhibit WS progression

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