AUTHOR=Rajcsanyi Luisa S. , Hoffmann Anne , Ghosh Adhideb , Matrisch-Dinkler Birgit , Zheng Yiran , Peters Triinu , Sun Wenfei , Dong Hua , Noé Falko , Wolfrum Christian , Herpertz-Dahlmann Beate , Seitz Jochen , de Zwaan Martina , Herzog Wolfgang , Ehrlich Stefan , Zipfel Stephan , Giel Katrin , Egberts Karin , Burghardt Roland , Föcker Manuel , Tsai Linus T. , Müller Timo D. , Blüher Matthias , Hebebrand Johannes , Hirtz Raphael , Hinney Anke 

TITLE=Genetic variants in genes involved in creatine biosynthesis in patients with severe obesity or anorexia nervosa

JOURNAL=Frontiers in Genetics

VOLUME=14

YEAR=2023

URL=https://www.frontiersin.org/journals/genetics/articles/10.3389/fgene.2023.1128133

DOI=10.3389/fgene.2023.1128133

ISSN=1664-8021

ABSTRACT=<p>Increased thermogenesis in brown adipose tissue might have an obesity-reducing effect in humans. In transgenic mice, depletion of genes involved in creatine metabolism results in disrupted thermogenic capacity and altered effects of high-fat feeding on body weight. Data analyses of a sex-stratified genome-wide association study (GWAS) for body mass index (BMI) within the genomic regions of genes of this pathway (<italic>CKB</italic>, <italic>CKMT1B</italic>, and <italic>GATM</italic>) revealed one sex-dimorphic BMI-associated SNP in <italic>CKB</italic> (rs1136165). The effect size was larger in females than in males. A mutation screen of the coding regions of these three candidate genes in a screening group (192 children and adolescents with severe obesity, 192 female patients with anorexia nervosa, and 192 healthy-lean controls) identified five variants in each, <italic>CKB</italic> and <italic>GATM</italic>, and nine variants in the coding sequence of <italic>CKMT1B</italic>. Non-synonymous variants identified in <italic>CKB</italic> and <italic>CKMT1B</italic> were genotyped in an independent confirmation study group (781 families with severe obesity (trios), 320 children and adolescents with severe obesity, and 253 healthy-lean controls). <italic>In silico</italic> tools predicted mainly benign yet protein-destabilizing potentials. A transmission disequilibrium test in trios with severe obesity indicated an obesity-protective effect of the infrequent allele at rs149544188 located in <italic>CKMT1B</italic>. Subsequent correlation analyses in 1,479 individuals of the Leipzig Obesity BioBank revealed distinct correlations of <italic>CKB</italic> with the other two genes in omental visceral adipose tissue (VAT) and abdominal subcutaneous adipose tissue (SAT). Furthermore, between-subject comparisons of gene expression levels showed generally higher expressions of all three genes of interest in VAT than in SAT. Future <italic>in vitro</italic> analyses are needed to assess the functional implications of these findings.</p>