CONTEXT: The transcription factor Krüppel-like zinc finger 11 (KLF11) has been suggested to contribute to genetic risk of type 2 diabetes (T2D). Our previous results showed that four KLF11 variants, in strong linkage disequilibrium (LD block including +185 A>G/Gln62Arg and -1659 G>C) were associated with T2D in a north European case-control study. Here we further analyzed these variants for T2D association in a general Danish population and assess their possible effect on gene function. METHODS: We genotyped Gln62Arg variant, representative for the LD block, in 5864 subjects of the INTER99 study to assess association to T2D and glucose metabolism-related quantitative traits. We studied effects of LD-block variants on KLF11 function and in particular, the effect of -1659G>C on transcriptional regulation of KLF11 using EMSA, chromatin immunoprecipitation, gene reporter assays, and small interfering RNA transfection. RESULTS: We could not confirm T2D association of the KLF11 LD block, however, in glucose-tolerant subjects; it was significantly associated with higher fasting serum insulin and C-peptide levels and increased homeostasis model assessment insulin resistance indexes (P = 0.00004, P = 0.006, and P = 0.00002, respectively). In addition, binding of signal transducer and activator of transcription (STAT)-3 to the wild-type (-1659G>C) allele stimulated gene transcription, whereas STAT3 did not bind onto the mutant allele. CONCLUSIONS: We showed that KLF11 may interfere with glucose homeostasis in a Danish general population and that STAT3-mediated up-regulation of KLF11 transcription was impaired by the -1659G>C variant. Overall, KLF11 variants may have a deleterious effect on insulin sensitivity, although that may not be sufficient to lead to T2D.
CONTEXT: The transcription factor Krüppel-like zinc finger 11 (KLF11) has been suggested to contribute to genetic risk of type 2 diabetes (T2D). Our previous results showed that four KLF11 variants, in strong linkage disequilibrium (LD block including +185 A>G/Gln62Arg and -1659 G>C) were associated with T2D in a north European case-control study. Here we further analyzed these variants for T2D association in a general Danish population and assess their possible effect on gene function. METHODS: We genotyped Gln62Arg variant, representative for the LD block, in 5864 subjects of the INTER99 study to assess association to T2D and glucose metabolism-related quantitative traits. We studied effects of LD-block variants on KLF11 function and in particular, the effect of -1659G>C on transcriptional regulation of KLF11 using EMSA, chromatin immunoprecipitation, gene reporter assays, and small interfering RNA transfection. RESULTS: We could not confirm T2D association of the KLF11 LD block, however, in glucose-tolerant subjects; it was significantly associated with higher fasting serum insulin and C-peptide levels and increased homeostasis model assessment insulin resistance indexes (P = 0.00004, P = 0.006, and P = 0.00002, respectively). In addition, binding of signal transducer and activator of transcription (STAT)-3 to the wild-type (-1659G>C) allele stimulated gene transcription, whereas STAT3 did not bind onto the mutant allele. CONCLUSIONS: We showed that KLF11 may interfere with glucose homeostasis in a Danish general population and that STAT3-mediated up-regulation of KLF11 transcription was impaired by the -1659G>C variant. Overall, KLF11 variants may have a deleterious effect on insulin sensitivity, although that may not be sufficient to lead to T2D.
Authors: Angela Mathison; Carlos Escande; Ezequiel Calvo; Seungmae Seo; Thomas White; Ann Salmonson; William A Faubion; Navtej Buttar; Juan Iovanna; Gwen Lomberk; Eduardo N Chini; Raul Urrutia Journal: Endocrinology Date: 2015-08-06 Impact factor: 4.736
Authors: Gaurang S Daftary; Gwen A Lomberk; Navtej S Buttar; Thomas W Allen; Adrienne Grzenda; Jinsan Zhang; Ye Zheng; Angela J Mathison; Ravi P Gada; Ezequiel Calvo; Juan L Iovanna; Daniel D Billadeau; Franklyn G Prendergast; Raul Urrutia Journal: J Biol Chem Date: 2011-12-27 Impact factor: 5.157