Cystathionine Beta-synthase P.S466L Mutation Causes Hyperhomocysteinemia in Mice

Overview

Journal Hum Mutat

Specialty Genetics

Date 2008 May 6

PMID 18454451

Citations 22

Authors

Sapna Gupta

Liqun Wang

Xiang Hua

Jakub Krijt

Viktor Kozich

Warren D Kruger

Affiliations

Soon will be listed here.

Abstract

Missense mutations in the cystathionine beta-synthase (CBS) gene are the most common cause of clinical homocystinuria in humans. The p.S466L mutation was identified in a homocystinuric patient, but enzymatic studies with recombinant protein show this mutant to be highly active. To understand how this mutation causes disease in vivo, we have created mice lacking endogenous mouse CBS and expressing either wild-type (Tg-hCBS) or p.S466L (Tg-S466L) human CBS under control of zinc inducible metallothionein promoter. In the presence of zinc, we found that the mean serum total homocysteine (tHcy) of Tg-S466L mice was 142+/-55 microM compared to 16+/-13 microM for hCBS mice. Tg-S466L mice also had significantly higher levels of total free homocysteine and S-adenosylhomocysteine in liver and kidney. Only 48% of Tg-S466L mice had detectable CBS protein in the liver, whereas all the Tg-hCBS animals had detectable protein. Surprisingly, CBS mRNA was significantly elevated in Tg-S466L animals compared to Tg-hCBS, implying that the reduction in p.S466L protein was occurring due to posttranscriptional mechanisms. In Tg-S466L animals with detectable liver CBS, the enzyme formed tetramers and was active, but lacked inducibility by S-adenosylmethionine (AdoMet). However, even in Tg-S466L animals that had in vitro liver CBS activity equivalent to Tg-hCBS animals there was significant elevation of serum tHcy. Our results show that p.S466L causes homocystinuria by affecting both the steady state level of CBS protein and by reducing the efficiency of the enzyme in vivo.

Citing Articles

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Examination of two different proteasome inhibitors in reactivating mutant human cystathionine β-synthase in mice.

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Analysis of differential neonatal lethality in cystathionine β-synthase deficient mouse models using metabolic profiling.

Gupta S, Wang L, Slifker M, Cai K, Maclean K, Wasek B FASEB J. 2021; 35(6):e21629.

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