Diabetes mellitus is a complicated disease characterized by a complex interplay of genetic,epigenetic,and environmental variables.It is one of the world's fastestgrowing diseases,with 783 million adults expected t...Diabetes mellitus is a complicated disease characterized by a complex interplay of genetic,epigenetic,and environmental variables.It is one of the world's fastestgrowing diseases,with 783 million adults expected to be affected by 2045.Devastating macrovascular consequences(cerebrovascular disease,cardiovascular disease,and peripheral vascular disease)and microvascular complications(like retinopathy,nephropathy,and neuropathy)increase mortality,blindness,kidney failure,and overall quality of life in individuals with diabetes.Clinical risk factors and glycemic management alone cannot predict the development of vascular problems;multiple genetic investigations have revealed a clear hereditary component to both diabetes and its related complications.In the twenty-first century,technological advancements(genome-wide association studies,nextgeneration sequencing,and exome-sequencing)have led to the identification of genetic variants associated with diabetes,however,these variants can only explain a small proportion of the total heritability of the condition.In this review,we address some of the likely explanations for this"missing heritability",for diabetes such as the significance of uncommon variants,gene-environment interactions,and epigenetics.Current discoveries clinical value,management of diabetes,and future research directions are also discussed.展开更多
文摘Diabetes mellitus is a complicated disease characterized by a complex interplay of genetic,epigenetic,and environmental variables.It is one of the world's fastestgrowing diseases,with 783 million adults expected to be affected by 2045.Devastating macrovascular consequences(cerebrovascular disease,cardiovascular disease,and peripheral vascular disease)and microvascular complications(like retinopathy,nephropathy,and neuropathy)increase mortality,blindness,kidney failure,and overall quality of life in individuals with diabetes.Clinical risk factors and glycemic management alone cannot predict the development of vascular problems;multiple genetic investigations have revealed a clear hereditary component to both diabetes and its related complications.In the twenty-first century,technological advancements(genome-wide association studies,nextgeneration sequencing,and exome-sequencing)have led to the identification of genetic variants associated with diabetes,however,these variants can only explain a small proportion of the total heritability of the condition.In this review,we address some of the likely explanations for this"missing heritability",for diabetes such as the significance of uncommon variants,gene-environment interactions,and epigenetics.Current discoveries clinical value,management of diabetes,and future research directions are also discussed.
