Accumulating data suggest that bone plays a role in energy metabolism through decarboxylation of osteocalcin. Thus, we aimed to study the association of circulating under--carboxylated osteocalcin (UC-OCN) and car-boxylated osteocalcin (C-OCN) with metabolic syndrome in middle aged Asian population.In this cross-sectional study, 131 middle aged Asian subjects were recruited. Circulating UC-OCN, C-OCN and parameters of metabolic phenotype were measured.Circulating UC-OCN was increased in subjects with metabolic syndrome (8.1±7.2 ng/ml vs. 5.9±4.6 ng/ml, p=0.036). In contrast, C-OCN showed a non-significant trend towards reduction in subjects with metabolic syndrome (3.6±2.2 ng/ml vs. 4.3±1.8 ng/ml, p=0.057). Further analysis revealed that changes in both UC-OCN and C-OCN occurred primarily among females with metabolic syndrome. Interestingly, neither forms of OCN differed significantly between individuals with and without metabolic syndrome in males. Logistic regression revealed that UC-OCN was independently associated with metabolic syndrome after adjusting for multiple covariates. However, association between metabolic syndrome and C-OCN was dependent on gender (i. e., amongst females only) in the fully adjusted regression model.Variation in OCN (including its sub-species) was associated with variation in metabolic parameters amongst Asian adults. Circulating UC-OCN was increased while C-OCN was decreased in treatment-naïve females with metabolic syndrome. Our preliminary observations further supported a potential link between bone and energy metabolism in humans.
Wolfram syndrome (WS) is a rare genetic disorder typically characterized by juvenile onset diabetes mellitus, optic atrophy, hearing loss, diabetes insipidus, and neurodegeneration. There would be a high index of clinical suspicion for WS when clinical manifestations of type 1 diabetes and optic atrophy present together. Genetic analysis is often required to confirm the diagnosis. We describe a pair of Chinese siblings diagnosed with WS at ages 20 and 24 years, respectively. DNA sequencing of the WFS1 gene which encodes for Wolframin ER Transmembrane Glycoprotein identified a heterozygous nonsense variant NM_006005.3: c.1999C>T p.(Gln667*) and a heterozygous missense variant c.2170C>T p.(Pro724Ser) in exon 8 of the gene for both siblings. There is no curative treatment for WS and management of this debilitating disease is aimed at treating individual clinical manifestations, slowing disease progression, and improving quality of life. Treatment with liraglutide, a glucagon-like-peptide-1 receptor agonist, and tauroursodeoxycholic acid was started for the younger sibling, the proband. There was reduction in insulin requirements and improvement in glycemic control. The other sibling was not offered liraglutide due to her complex treatment regimen for end-organ failure. Genetic testing is a valuable tool to detect WS early to allow precise and prompt diagnosis, thereby facilitating the coordinated care from a multidisciplinary team of clinicians.
A 43-year-old man, with severe obesity (43 kg/m2) and diabetes (presumed as type 2 diabetes [T2D]), underwent vertical sleeve gastrectomy in 2009 and Roux-en-Y gastric bypass in 2013. Recently, whole exome sequencing (conducted to search for monogenic obesity) serendipitously revealed that the individual harbored a heterozygous glucokinase ( GCK) variant p.(Arg422Leu) that was bioinformatically strongly predicted to be likely pathogenic. Therefore, he is likely to have concomitant maturity-onset diabetes of the young (MODY) type 2 ( GCK-MODY). A retrospective evaluation of the clinical data showed that the subject was diagnosed with T2D (given his severe obesity) in 2005 and was treated with oral antidiabetic monotherapy. His hyperglycemia was mostly mild (HbA1c [hemoglobin] < 8.1%), consistent with that of MODY2, despite severe obesity. After vertical sleeve gastrectomy, complete diabetes remission (HbA1c <6.0% and fasting plasma glucose <5.6 mmol/L without use of antidiabetic medication) was achieved. The percentage of maximum body weight loss attained after surgery was 23.6%. Euglycemia was maintained during the subsequent decade, up to the last follow-up in 2019, without any sign of hypoglycemia. In conclusion, we report a decade-long clinical experience of a man with severe obesity and diabetes likely due to the coexistence of GCK-MODY and T2D, serendipitously treated with metabolic surgery. Interestingly, metabolic surgery was effective and safe for him.
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