MODY 2 causado por mutaciones en la glucoquinasa: una aproximación a nivel molecular / MODY 2 caused by glucokinase mutations: a molecular approach

La diabetes MODY 2 es un tipo de diabetes monogénica producida por una mutación en la enzima glucoquinasa, generando un fenotipo hiperglicémico. Para posibles fines terapéuticos o de diagnóstico, se debe conocer esta proteína, una enzima monomérica de la familia de las hexoquinasas, encargadas de convertir glucosa en glucosa-6-fosfato, el primer paso de la glicolisis. La glucoquinasa se caracteriza por sus propiedades cinéticas únicas: tiene una afinidad mucho menor por el sustrato que las demás hexoquinasas y no es inhibida por su producto. Se encuentra principalmente en páncreas e hígado (ßGK y LGK, respectivamente), donde como sensor regula los distintos estados metabólicos de estos tejidos, y controla la glicemia a nivel sistémico. Las formas ßGK y LGK se diferencian a nivel transcripcional, pues el gen posee dos promotores distintos, específicos para cada tejido. A nivel hormonal, la actividad de esta enzima es regulada selectivamente de manera tejido-específica por glucosa, insulina y otras proteínas reguladoras. La isoforma hepática puede ser secuestrada hacia el núcleo por la proteína reguladora de glucoquinasa (GKRP, por su sigla en inglés). La principal característica de la enzima glucoquinasa es su inusual regulación alostérica, propiedad que le permite adoptar dos conformaciones principales, una cerrada (activa) y otra súper-abierta (inactiva). Se han desarrollado distintas drogas activadoras de glucoquinasa, las cuales se unen al sitio alostérico de la enzima y estabilizan a la proteína en su estado cerrado. En esta revisión se describen las características estructurales y propiedades regulatorias que posee la enzima glucoquinasa, relacionándolas con su rol en el desarrollo de la diabetes MODY 2. También se profundiza en las implicancias moleculares de algunas mutaciones descritas que originan MODY 2, y se abordan los efectos de moléculas activadoras de glucoquinasa.

Diabetes MODY 2 or GCK-MODY is a type of monogenic diabetes produced by a mutation in the glucokinase enzyme, generating a hyperglycemic phenotype. This protein, a monomeric enzyme of the hexokinase family, is responsible for converting glucose into glucose-6-phosphate, the first step of glycolysis. Glucokinase is characterized by its unique kinetic properties: it has a much lower affinity for its substrate than other hexokinases and is not inhibited by its product. It is found mainly in pancreas (ßGK) and liver (LGK), where it acts as a sensor regulating the different metabolic states of these tissues, and ultimately, controlling systemic glycemia. The two forms ßGK and LGK differ at a transcriptional level, because the gene presents two different tissue-specific promoters. The activity of glucokinase in liver and pancreas is regulated by glucose, insulin and other regulatory proteins. The liver isoform can be sequestered to the nucleus by the glucokinase regulatory protein (GKRP). The main characteristic of the enzyme is its unusual allosteric regulation, a property that allows the protein to adopt a closed (active) conformation, and a super-open (inactive) conformation. Different glucokinase activating drugs have been developed, which bind to the allosteric site of the enzyme and stabilize glucokinase in its closed state. This review describes the structural and regulatory properties of the glucokinase enzyme, and its role in the development of MODY 2 diabetes. The molecular implications of some mutations that originate MODY 2 are also described, and the effects of glucokinase activating molecules are addressed.

MODY probability calculator for GCK and HNF1A screening in a multiethnic background population

ABSTRACT Objective We aimed to identify the frequency of monogenic diabetes, which is poorly studied in multiethnic populations, due to GCK or HNF1A mutations in patients with suggestive clinical characteristics from the Brazilian population, as well as investigate if the MODY probability calculator (MPC) could help patients with their selection. Subjects and methods Inclusion criteria were patients with DM diagnosed before 35 years; body mass index < 30 kg/m2; negative autoantibodies; and family history of DM in two or more generations. We sequenced HNF1A in 27 patients and GCK in seven subjects with asymptomatic mild fasting hyperglycemia. In addition, we calculated MODY probability with MPC. Results We identified 11 mutations in 34 patients (32.3%). We found three novel mutations. In the GCK group, six cases had mutations (85.7%), and their MODY probability on MPC was higher than 50%. In the HNF1A group, five of 27 individuals had mutations (18.5%). The MPC was higher than 75% in 11 subjects (including all five cases with HNF1A mutations). Conclusion Approximately one third of the studied patients have GCK or HNF1A mutations. Inclusion criteria included efficiency in detecting patients with GCK mutations but not for HNF1A mutations (< 20%). MPC was helpful in narrowing the number of candidates for HNF1A screening.

A novel mutation W257R in gene discovered from a Chinese patient with maturity onset diabetes of the young / 浙江大学学报·医学版

Maturity onset diabetes of the young (MODY) is a monogenic autosomal dominant inherited disease. Its clinical manifestations are asymptomatic with slightly elevated fasting blood glucose and few complications. This paper reports a novel mutation W257R in glucokinase () gene from a Chinese patient with MODY. Heterozygous mutation c.769T>C (p.W257R) in exon 7 of gene (Chr744187343) was found in the proband, her father and brother. This W257R mutation was first reported in Chinese population.

New Perspectives in Pediatric Nonalcoholic Fatty Liver Disease: Epidemiology, Genetics, Diagnosis, and Natural History / 대한소아소화기영양학회지

Nonalcoholic fatty liver disease (NAFLD) is the most common cause of chronic liver disease in children. The global prevalence of pediatric NAFLD from general populations is 7.6%. In obese children, the prevalence is higher in Asia. NAFLD has a strong heritable component based on ethnic difference in the prevalence and clustering within families. Genetic polymorphisms of patatin-like phospholipase domain–containing protein 3 (PNPLA3), transmembrane 6 superfamily member 2, and glucokinase regulatory protein (GCKR) are associated with the risk of NAFLD in children. Variants of PNPLA3 and GCKR are more common in Asians. Alterations of the gut microbiome might contribute to the pathogenesis of NAFLD. High fructose intake increases the risk of NAFLD. Liver fibrosis is a poor prognostic factor for disease progression to cirrhosis. Magnetic resonance spectroscopy and magnetic resonance proton density fat fraction are more accurate for steatosis quantification than ultrasound. Noninvasive imaging methods to assess liver fibrosis, such as transient elastography, shear-wave elastography, and magnetic resonance elastography are useful in predicting advanced fibrosis, but they need further validation. Longitudinal follow-up studies into adulthood are needed to better understand the natural history of pediatric NAFLD.

Hyperglycemia in pediatric age: could it be maturity onset diabetes of the young? Case reports and review of the literature

Maturity Onset Diabetes of the Young (MODY) includes a clinically and genetically heterogeneous group of diabetes subtypes with MODY-2 being the second most prevalent form. We report 2 cases of MODY-2 identified during the investigation of asymptomatic hyperglycemia. A 12-year-old girl with a familiar history of diabetes (mother, maternal aunt, and maternal grandfather) was referred due to hypercholesterolemia, abnormal fasting glucose (114 mg/dL), and increased levels of glycated haemoglobin (HbA(1c)) (6%) presenting with negative β-cell antibodies. A glucokinase (GCK) heterozygous missense mutation c.364C>T (p.Leu122Phe) in exon 4 was identified in the index patient and in the 3 family members. An obese 9-year-old boy was investigated for elevated fasting glycemic levels (99–126 mg/dL), HbA(1c) rise (6.6%–7.6%), and negative β-cell antibodies. The patient's father, paternal aunt, and paternal grandfather had a history of diabetes during their childhood. A GCK heterozygous missense mutation c.698G>A (p.Cys233Tyr) in exon 7 was identified in the index patient. This variant was only described in another family strongly affected by both MODY and classic autoimmune mediated diabetes, contrary to our case. MODY-2 should be suspected in the presence of early onset of persistent mild fasting hyperglycemia and negative β-cell antibodies associated with a positive family history of diabetes. These cases illustrate the challenging aspects of MODY diagnosis due to possible phenotypic overlap with other types of diabetes. The diagnosis requires a high level of suspicion and GCK genetic screening should be performed in the presence of compatible features. An early diagnosis allows for appropriate management, genetic counselling, and the identification of affected family members.

Hallazgo de una nueva mutación en una familia chilena con diabetes monogénica: caso clínico / Finding of a new mutation in a Chilean family with monogenic diabetes: report of one case

We report a 21 years old woman, without offspring, with diabetes mellitus diagnosed at 17 years of age, without ketosis or weight loss. Her body mass index was 18 kg/m2. Her C peptide was normal (2.3 ng/ml) and diabetes mellitus type 1 autoantibodies were negative. A monogenic diabetes Maturity Onset Diabetes of the Young (MODY) was proposed. Her family study disclosed a diabetic father and a brother with altered fasting glucose levels. The University of Exeter score for MODY yielded a 75.5% probability of MODY2. In the genetic-molecular study of the glucokinase gene (MODY2), the patient had a mutation at position 1343 of exon 10, corresponding to a heterozygous substitution of guanine by adenine (1343 G >A). The same mutation was found in her father and brother. This mutation is different from those previously described in the literature. The described change determines that a glycine is replaced by aspartic at amino acid 448 of the enzyme (non-synonymous substitution). The diagnosis of MODY2 was therefore confirmed in the patient and her father. The mutation was inherited by paternal line.

A Journey to Understand Glucose Homeostasis: Starting from Rat Glucose Transporter Type 2 Promoter Cloning to Hyperglycemia

My professional journey to understand the glucose homeostasis began in the 1990s, starting from cloning of the promoter region of glucose transporter type 2 (GLUT2) gene that led us to establish research foundation of my group. When I was a graduate student, I simply thought that hyperglycemia, a typical clinical manifestation of type 2 diabetes mellitus (T2DM), could be caused by a defect in the glucose transport system in the body. Thus, if a molecular mechanism controlling glucose transport system could be understood, treatment of T2DM could be possible. In the early 70s, hyperglycemia was thought to develop primarily due to a defect in the muscle and adipose tissue; thus, muscle/adipose tissue type glucose transporter (GLUT4) became a major research interest in the diabetology. However, glucose utilization occurs not only in muscle/adipose tissue but also in liver and brain. Thus, I was interested in the hepatic glucose transport system, where glucose storage and release are the most actively occurring.

Diabetes mellitus por mutación en el gen de glucokinasa: caso clínico / Diabetes mellitus caused by a mutation of glucokinase gene: report of an affected family

Maturity-Onset Diabetes of the Young (MODY) refers to a heterogeneous group of monogenic diabetes. Unlike other types of MODY characterized by genetic defects in transcription factors, MODY 2 is triggered by metabolic alterations caused by mutations of glucokinase (GCK), the first enzyme of the glycolytic pathway. We report a three-generation Chilean family with multiple cases affected with this disease. The index case is a patient who presented severe neonatal hyperglycemia (831 mg/dl, without ketosis) requiring continuous infusion of insulin, which was suspended after 48 hours with normalization of blood glucose. Subsequently, continuous glucose monitoring at 4 months of age revealed 47% of tissue glucose levels above 140 mg/dl, with fasting glucose levels between 120 and 166 mg/dl. The genetic analysis revealed a previously reported mutation in heterozygous state of the GCK gene (c.148C>T; p.His50Tyr). This mutation was also identified in more than one affected relative in the last two generations, with a transmission pattern suggestive of dominant inheritance. GCK gene sequencing led to a correct molecular diagnosis of MODY 2 while bioinformatic analysis indicated the possible molecular causes of the enzyme dysfunction. The knowledge of the molecular diagnosis allowed an adequate medical treatment for this disease.

Presentaciones poco frecuentes de diabetes tipo MODY: el ejemplo de MODY tipo 5 y las formas de novo de MODY tipo 2 / Infrequent presentations of MODY diabetes: the example of MODY type 5 and de novo forms of MODY type 2

La diabetes tipo MODY se produce por alteraciones en genes relacionados con el metabolismo de la célula beta pancreática. El tipo 2 es uno de los más frecuentes y se produce por alteraciones en el gen GCK (glucoquinasa) y el tipo 5 es mucho menos frecuente y se produce por alteraciones en el gen HNF1B (factor nuclear hepático 1B). Se presentan con herencia autosómica dominante, aunque se ha descripto la presencia de mutaciones de novo. El objetivo del trabajo fue buscar mutaciones en el gen GCK en pacientes sin antecedentes familiares pero con características clínicas de MODY2 y mutaciones en el gen HNF1B en pacientes con características clínicas de MODY5 con y sin antecedentes familiares. Para ello a partir de ADN se realizó la secuenciación de cada gen por el método de Sanger o por secuenciación de nueva generación. Como resultado, se hallaron mutaciones en el gen GCK en cuatro pacientes sin antecedentes familiares y mutaciones en el gen del HNF1B en dos pacientes, uno de ellos sin antecedentes familiares. Como conclusión puede afirmarse que las mutaciones de novo en el gen de la GCK son más frecuentes de lo descripto, por lo cual se recomienda el estudio del gen en pacientes con características compatibles aún sin antecedentes familiares. También es importante el estudio del gen HNF1B en pacientes con características típicas ya que deben tratarse no sólo por sus alteraciones renales sino por la diabetes presente; de esta manera se logra un correcto diagnóstico para instaurar el tratamiento más adecuado

Identification of Maturity-Onset Diabetes of the Young Caused by Glucokinase Mutations Detected Using Whole-Exome Sequencing

Glucokinase maturity-onset diabetes of the young (GCK-MODY) represents a distinct subgroup of MODY that does not require hyperglycemia-lowering treatment and has very few diabetes-related complications. Three patients from two families who presented with clinical signs of GCK-MODY were evaluated. Whole-exome sequencing was performed and the effects of the identified mutations were assessed using bioinformatics tools, such as PolyPhen-2, SIFT, and in silico modeling. We identified two mutations: p.Leu30Pro and p.Ser383Leu. In silico analyses predicted that these mutations result in structural conformational changes, protein destabilization, and thermal instability. Our findings may inform future GCK-MODY diagnosis; furthermore, the two mutations detected in two Korean families with GCK-MODY improve our understanding of the genetic basis of the disease.

Increased glucose metabolism and alpha-glucosidase inhibition in Cordyceps militaris water extract-treated HepG2 cells

BACKGROUND/OBJECTIVES: Recent living condition improvements, changes in dietary habits, and reductions in physical activity are contributing to an increase in metabolic syndrome symptoms including diabetes and obesity. Through such societal developments, humankind is continuously exposed to metabolic diseases such as diabetes, and the number of the victims is increasing. This study investigated Cordyceps militaris water extract (CMW)-induced glucose uptake in HepG2 cells and the effect of CMW treatment on glucose metabolism. MATERIALS/METHODS: Colorimetric assay kits were used to determine the glucokinase (GK) and pyruvate dehydrogenase (PDH) activities, glucose uptake, and glycogen content. Either RT-PCR or western blot analysis was performed for quantitation of glucose transporter 2 (GLUT2), hepatocyte nuclear factor 1 alpha (HNF-1α), phosphatidylinositol 3-kinase (PI3k), protein kinase B (Akt), phosphorylated AMP-activated protein kinase (pAMPK), phosphoenolpyruvate carboxykinase, GK, PDH, and glycogen synthase kinase 3 beta (GSK-3β) expression levels. The α-glucosidase inhibitory activities of acarbose and CMW were evaluated by absorbance measurement. RESULTS: CMW induced glucose uptake in HepG2 cells by increasing GLUT2 through HNF-1α expression stimulation. Glucose in the cells increased the CMW-induced phosphorylation of AMPK. In turn, glycolysis was stimulated, and glyconeogenesis was inhibited. Furthermore, by studying the mechanism of action of PI3k, Akt, and GSK-3β, and measuring glycogen content, the study confirmed that the glucose was stored in the liver as glycogen. Finally, CMW resulted in a higher level of α-glucosidase inhibitory activity than that from acarbose. CONCLUSION: CMW induced the uptake of glucose into HepG2 cells, as well, it induced metabolism of the absorbed glucose. It is concluded that CMW is a candidate or potential use in diabetes prevention and treatment.

Diabetes MODY 2: reporte de dos casos con nueva mutación en el gen de glucokinasa / MODY 2: report of two cases with a new gene mutation in GCK

La diabetes MODY (Maturity Onset Diabetes of the Young) comprende un grupo heterogéneo de enfermedades monogénicasque se caracterizan por la disfunción de las células β. Se estima que ellas son responsables de 2-5% de los casos de diabetes. Seconocen más de 200 mutaciones en el gen de la glucoquinasa (GCK). En este trabajo se expone el caso de dos hermanas enlas cuales se realizó el diagnóstico de MODY 2 a través del estudio genético, hallándose una mutación del gen de la GCK nodescripto previamente en la bibliografía.

MODY (maturity onset diabetes of the young) includes a heterogeneous group of monogenic diseases which are characterized bydysfunction of beta cells. It accounts for 2-5% of all cases of diabetes. Over 200 mutations in the glucokinase (GCK) gene are known.In this paper we discuss the cases of two sisters in which the diagnosis of MODY 2 was performed by genetic studies, and report thefinding of a mutation in the GCK gene not previously described in the literature.

Sargassum coreanum extract alleviates hyperglycemia and improves insulin resistance in db/db diabetic mice

BACKGROUND/OBJECTIVES: The goal of this study was to examine the effect of Sargassum coreanum extract (SCE) on blood glucose concentration and insulin resistance in C57BL-KsJ-db/db mice. MATERIALS/METHODS: For 6 weeks, male C57BL/KsJ-db/db mice were administrated SCE (0.5%, w/w), and rosiglitazone (0.005%, w/w). RESULTS: A supplement of the SCE for 6 weeks induced a significant reduction in blood glucose and glycosylated hemoglobin concentrations, and it improved hyperinsulinemia compared to the diabetic control db/db mice. The glucokinase activity in the hepatic glucose metabolism increased in the SCE-supplemented db/db mice, while phosphoenolpyruvate carboxykinase and glucose-6-phosphatase activities in the SCE-supplemented db/db mice were significantly lower than those in the diabetic control db/db mice. The homeostatic index of insulin resistance was lower in the SCE-supplemented db/db mice than in the diabetic control db/db mice. CONCLUSIONS: These results suggest that a supplement of the SCE lowers the blood glucose concentration by altering the hepatic glucose metabolic enzyme activities and improves insulin resistance.

Maturity onset diabetes of young type 2 due to a novel de novo GKC mutation / Diabetes monogênica tipo MODY com início na juventude causado por uma mutação GKC de novo não descrita anteriormente

Maturity Onset Diabetes of Young (MODY) is a heterogeneous group of monogenic disorders that result in β-cell dysfunction, with an estimated prevalence of 1%-2% in industrialized countries. MODY generally occurs in non-obese patients with negative autoantibodies presenting with mild to moderate hyperglycemia. The clinical features of the patients are heterogeneous, depending on the different genetic subtypes. We pretend to report a case of MODY type 2 caused by a novel de novo CGK mutation, highlighting the importance of the differential diagnosis in pediatric diabetes. A 13-year-old, healthy and non-obese girl was admitted for investigation of recurrent hyperglycemia episodes. She presented with persistent high levels of fasting blood glycemia (> 11.1 mmol/L) and had no familial history of diabetes. The blood glucose profile revealed an impaired fasting glucose of 124 mg/dL (6,9 mmol/L) with a normal oral glucose tolerance test. Fasting insulinemia was 15 mg/dL (90.1 pmol/L), HOMA-IR was 3.9 and hemoglobin A1c was 7.1%. Pancreatic autoantibodies were negative. Genetic testing identified a novel missense heterozygous mutation in exon 5 of GCK gene c.509G > T (p.Gly170Val), not present on the parents. This result established the diagnosis of MODY type 2. Clinical identification of patients with MODY remains a diagnostic challenge, especially when familial history is absent. Molecular diagnosis is very important for establishing an individualized treatment and providing a long term prognosis for each type of MODY.

O diabetes da maturidade com início na juventude (MODY) é um grupo heterogêneo de doenças monogênicas que resultam em disfunção das células β, com uma prevalência estimada de 1-2% nos países industrializados. O MODY geralmente ocorre em pacientes não obesos, negativos para autoanticorpos e que apresentam hiperglicemia de leve a moderada. As características clínicas dos pacientes são heterogêneas e dependem do subtipo genético. Pretende-se relatar um caso de MODY tipo 2 causado por uma mutação GKC de novo não descrita anteriormente, demonstrando a importância do diagnóstico diferencial no diabetes pediátrico. Uma menina de 13 anos de idade, saudável e não obesa, foi admitida em um hospital para investigação de episódios recorrentes de hiperglicemia. Ela apresentava níveis altos e persistentes de glicemia de jejum (> 11,1 mmol/L) e não havia histórico familiar de diabetes. O perfil glicêmico sanguíneo revelou glicose de jejum de 124 mg/dL (6,9 mmol/L), com resultados normais no teste oral de tolerância à glicose. O resultado da insulinemia de jejum foi 15 mg/dL (90,1 pmol/L), do HOMA-IR foi 3,9 e da hemoglobina A1c foi de 7,1%. Os autoanticorpos pancreáticos foram negativos. A análise genética identificou uma nova mutação heterozigota missense no éxon 5 do gene GCK c.509G > T (p.Gly170Val), não encontrada nos país. Esse resultado estabeleceu o diagnóstico de MODY tipo 2. A identificação clínica dos pacientes com MODY permanece um desafio diagnóstico, especialmente quando não existe um histórico familiar. O diagnóstico molecular é muito importante para se estabelecer um tratamento individualizado e oferecer um prognóstico de longo prazo para cada tipo de MODY.

Clínica y tratamiento de la diabetes tipo MODY / Clinical treatment for MODY diabetes

El término MODY (Maturity Onset Diabetes of the Young) proviene de la antigua clasificación de la DM que la subdividía en aquellas que comenzaban en la juventud de las que lo hacían en la edad adulta. En la actualidad, se las encuadra dentro de aquellos cuadros caracterizados por “defectos genéticos en la función de la célula beta”. Es una forma monogénica de la enfermedad cuyo denominador común es la hiposecreción de insulina como factor desencadenante primario. Actualmente se han identificado 13 subtipos de MODY. Si bien MODY representa aproximadamente el 1-2% de los pacientes con DM, se estima que un gran porcentaje de los casos se encuentran sin diagnosticar. En cuanto a la frecuencia relativa, MODY 2 y MODY 3 representan alrededor del 60-80% de los casos, y MODY 1 el 10% de los mismos. En general, los pacientes con MODY se caracterizan por tener: 1) DM de comienzo en la edad joven, en general menores de 25 años; 2) fuerte influencia familiar; 3) sin estigmas de insulinorresistencia; 4) insulinodependencia; 5) ausencia de autoanticuerpos relacionados con DM autoinmune. El diagnóstico de MODY trae aparejado implicancias pronósticas, terapéuticas y sobre consejo genético. Aquellos pacientes con mutación en glucoquinasa (MODY2) habitualmente no desarrollan complicaciones crónicas tanto micro como macrovasculares y en general no requieren tratamiento farmacológico, mientras que aquellos con mutaciones en HNF-1α (MODY3) tienen tendencia a complicaciones microvasculares y poseen la característica de presentar hiperrespuestas a dosis bajas de sulfonilureas, incluso en algunas ocasiones presentan hipoglucemias severas.

Effects of ursolic acid on glucose metabolism, the polyol pathway and dyslipidemia in non-obese type 2 diabetic mice.

Ursolic acid (UA) is a pentacyclic triterpenoid compound that naturally occurs in fruits, leaves and flowers of medicinal herbs. This study investigated the dose-response efficacy of UA (0.01 and 0.05%) on glucose metabolism, the polyol pathway and dyslipidemia in streptozotocin/nicotinamide-induced diabetic mice. Supplement with both UA doses reduced fasting blood glucose and plasma triglyceride levels in non-obese type 2 diabetic mice. High-dose UA significantly lowered plasma free fatty acid, total cholesterol and VLDL-cholesterol levels compared with the diabetic control mice, while LDL-cholesterol levels were reduced with both doses. UA supplement effectively decreased hepatic glucose-6-phosphatase activity and increased glucokinase activity, the glucokinase/glucose-6-phosphatase ratio, GLUT2 mRNA levels and glycogen content compared with the diabetic control mice. UA supplement attenuated hyperglycemia-induced renal hypertrophy and histological changes. Renal aldose reductase activity was higher, whereas sorbitol dehydrogenase activity was lower in the diabetic control group than in the non-diabetic group. However, UA supplement reversed the biochemical changes in polyol pathway to normal values. These results demonstrated that low-dose UA had preventive potency for diabetic renal complications, which could be mediated by changes in hepatic glucose metabolism and the renal polyol pathway. High-dose UA was more effective anti-dyslipidemia therapy in non-obese type 2 diabetic mice.

Maturity-onset diabetes of the young 2 with a novel mutation of glucokinase gene in a Chinese boy and the clinical follow-up / 中华儿科杂志

<p><b>OBJECTIVE</b>To explore the clinical and gene mutation characteristics of a child with maturity-onset diabetes of the young 2 (MODY2).</p><p><b>METHOD</b>The clinical and follow-up data of 1 patient with MODY2 were reviewed. GCK mutational analysis was performed by PCR and direct sequencing in the proband and his family members.</p><p><b>RESULT</b>The 9 years and 6 months old boy was referred to our department for short stature and mild hyperglycemia. His fasting blood glucose was elevated to 7.4-7.8 mmol/L, hemoglobin A1C 6.7%. His height was 122 cm (-2 s), weight 25 kg (-1 s), body mass index (BMI) 16.8 kg/m(2). His physical exam was unremarkable without dysmorphic features or acanthosis nigricans. The oral glucose tolerance test (OGTT) showed fasting glucose 8.17 mmol/L, insulin <2.0 mU/L, 2 h glucose 8.69 mmol/L, insulin 5.06 mU /L. The boy was treated with insulin injection for half a year. His fasting blood glucose was stable at 5.6-8.5 mmol/L, hemoglobin A1C 6.7%-6.8%. His mother's fasting blood glucose was 6.86 mmol/L, OGTT 2 h blood glucose 10.36 mmol/L, hemoglobin A1C 6.8%. GCK sequence revealed a novel GCK mutation c.34_44+15del26 in the proband and his mother, which was co-segregated with diabetes. The boy's treatment was shifted from insulin injection to diet and exercise after the diagnosis of MODY2 was confirmed. Being followed up for 2 and a half years, his fasting blood glucose was stable at 4.6-8.0 mmol/L and hemoglobin A1C 6.8%-7.1%.</p><p><b>CONCLUSION</b>The clinical features of MODY2 are persistent and stable fasting hyperglycemia over a period of months or years and small blood glucose increment (less than 3 mmol/L) after an OGTT (2 h glucose-fasting glucose). We identified a novel c.34_44+15del26 mutation in GCK which co-segregated with diabetes phenotype in this family.</p>

Study of the mechanisms underlying increased glucose absorption in Smilax china L. leaf extract-treated HepG2 cells / 한국영양학회지

PURPOSE: Previous studies have shown that treatment with Smilax china L. leaf extract (SCLE) produces antidiabetic effects due to alpha-glucosidase inhibition. In this study, we examined the mechanism underlying these antidiabetic effects by examining glucose uptake in HepG2 cells cultured with SCLE. METHODS: Glucose uptake and glucokinase activity were examined using an assay kit. Expression of glucose transporter (GLUT)-2, GLUT-4, and HNF-1alpha was measured by RT-PCR or western blot. RESULTS: Treatment with SCLE resulted in enhanced glucose uptake in HepG2 cells, and this effect was especially pronounced when cells were cultured in an insulin-free medium. SCLE induced an increase in expression of GLUT-2 but not GLUT-4. The increase in the levels of HNF-1alpha, a GLUT-2 transcription factor, in total protein extract and nuclear fraction suggest that the effects of SCLE may occur at the level of GLUT-2 transcription. In addition, by measuring the change in glucokinase activity following SCLE treatment, we confirmed that SCLE stimulates glucose utilization by direct activation of this enzyme. CONCLUSION: These results demonstrate that the potential antidiabetic activity of SCLE is due at least in part to stimulation of glucose uptake and an increase in glucokinase activity, and that SCLE-stimulated glucose uptake is mediated through enhancement of GLUT-2 expression by inducing expression of its transcription factor, HNF-1alpha.

Salicylic acid derivatives as simplified and novel GK small molecule activators / 药学学报

Glucokinase (GK) is a new target for the treatment of type II diabetes mellitus (T2DM). In order to find a structure-simplified small molecule GK activator, 19 salicylic acid derivatives were designed and synthesized based on new lead compound (1). Experimental results showed that the potency of compound 8h is superior to control RO-28-0450 in GK activation.

Effects of medicinal herb water extracts on expression of hepatic glucokinase, pyruvate dehydrogenase and acetyl-CoA carboxylase mRNA

We studied the anti-diabetic effects of medicinal herb water extracts on expression of hepatic glucokinase (GCK), pyruvate dehydrogenase (PDH), and acetyl-CoA carboxylase (ACC) mRNA. The medicinal herbs used for experiments were Cornus officinalis (CO), Paeonia suffruticosa Andrews (PSA), Discorea japonica Thunb. (DJ), Rehmannia glutinosa (RG), Lycium chinense (LC), and Pyrus pyrifolia (PP). For GCK mRNA expression, CO, RG, and LC water extracts exhibited a more effective activity than other extracts. Cells treated with RG and LC water extracts showed an increase in expression of PDH mRNA to 191% and 124%, respectively, compared to control. Expression of ACC mRNA was significantly higher in LC water extract. These data indicate that CO, RG, and LC water extracts stimulates expression of hepatic GCK, PDH, and ACC mRNA.