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Hypoglycemia and Glucagon01:15

Hypoglycemia and Glucagon

Without prolonged fasting, healthy individuals maintain blood glucose levels above 3.5 mM due to a well-adapted neuroendocrine counterregulatory system that effectively prevents acute hypoglycemia, a potentially life-threatening condition. The primary clinical scenarios for hypoglycemia encompass diabetes treatment, inappropriate production of endogenous insulin or insulin-like substances by tumors, and the use of glucose-lowering agents in non-diabetic individuals. Notably, hypoglycemia in the...
Hyperglycemia01:29

Hyperglycemia

Hyperglycemia is an abnormally high blood glucose level. It is diagnosed by fasting glucose ≥126 mg/dL, 2-hour oral glucose tolerance test (or OGTT) ≥200 mg/dL, random glucose ≥200 mg/dL with symptoms, or HbA1c ≥6.5%. However, HbA1c results may be unreliable in certain conditions, such as anemia or hemoglobinopathies, and the diagnosis should be confirmed unless classic symptoms are present. Postprandial hyperglycemia is typically considered significant when glucose levels exceed 180 mg/dL two...
Hypoglycemia01:26

Hypoglycemia

Hypoglycemia is a blood glucose level below 70 mg/dL. It commonly occurs in individuals using insulin or insulin-secreting drugs, but may also arise in non-diabetic conditions. People with type 1 diabetes are at the highest risk because they depend on exogenous insulin. People with type 2 diabetes are also at risk, especially when treated with insulin or medications such as sulfonylureas, which increase insulin release regardless of blood glucose levels. It develops when insulin levels exceed...
Overview of Carbohydrate Metabolism01:19

Overview of Carbohydrate Metabolism

Carbohydrate metabolism is a fundamental biochemical process that ensures a constant supply of energy to living cells. The most important carbohydrate is glucose, which can be broken down via glycolysis to enter into the Krebs cycle and eventually lead to the production of ATP through oxidative phosphorylation.
Glucose transport into cells is facilitated by a family of transport proteins called GLUT (Glucose Transporters). GLUT4 is the primary glucose transporter for insulin-stimulated glucose...
Diabetes Mellitus: Type 2 and Gestational01:22

Diabetes Mellitus: Type 2 and Gestational

Type 2 diabetes, characterized by insulin resistance, arises when the insulin receptors on cells lose responsiveness to insulin, diminishing the cell's capacity to take up glucose, resulting in elevated blood glucose levels. To receive a diagnosis of Type 2 diabetes, a series of blood glucose tests are necessary to assess whether the blood glucose falls within normal parameters. If the result is out of the normal range, a patient may be diagnosed as prediabetic or diabetic, depending on the...
Type I Diabetes III: Clinical Manifestations01:19

Type I Diabetes III: Clinical Manifestations

Type 1 diabetes mellitus typically presents with rapid-onset symptoms due to the body’s inability to utilize glucose in the absence of insulin. Since insulin is required for glucose uptake into cells, its deficiency leads to hyperglycemia and cellular energy deprivation, resulting in characteristic clinical features.Polyuria and PolydipsiaOne of the earliest, most prominent symptoms is polyuria (excessive urination). When blood glucose concentrations rise above the renal threshold, the kidneys...

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Related Experiment Video

Updated: May 26, 2026

A Method for Manipulating Blood Glucose and Measuring Resulting Changes in Cognitive Accessibility of Target Stimuli
08:01

A Method for Manipulating Blood Glucose and Measuring Resulting Changes in Cognitive Accessibility of Target Stimuli

Published on: August 12, 2016

Glycemic memory.

Assam El-Osta1

  • 1Epigenetics in Human Health and Disease Laboratory, The University of Melbourne, Parkville, Melbourne, Victoria, Australia. assam.el-osta@bakeridi.edu.au

Current Opinion in Lipidology
|December 22, 2011
PubMed
Summary
This summary is machine-generated.

Epigenetic changes, specifically chromatin modifications, play a role in how the body remembers high blood sugar (glycemic memory). Understanding these gene-regulating mechanisms is key to developing new therapies for diabetic complications.

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Area of Science:

  • Molecular Biology
  • Genetics
  • Endocrinology

Background:

  • Epigenetic modifications, including changes to histone tails and DNA, are crucial for regulating genome structure and function.
  • While significant progress has been made in identifying enzymes involved in these modifications, precise gene expression regulation in health and diabetes remains incompletely understood.

Purpose of the Study:

  • To examine the resurgence in understanding gene-regulating epigenetic changes that confer glycemic memory.
  • To explore the role of epigenetics in the long-term effects of hyperglycemia.

Main Methods:

  • Review of recent experimental research on chromatin modifications and gene expression.
  • Analysis of the function of enzymes mediating chromatin modifications.

Main Results:

  • Chromatin modifications are critical for genome regulation, but their precise role in gene expression, particularly in diabetic complications, is still being elucidated.
  • Experimental research is actively uncovering the function of enzymes involved in chromatin modifications.

Conclusions:

  • The epigenome is involved in glycemic signaling, challenging the notion of uniform genome response.
  • Identifying the role of the epigenome in glycemic memory is a crucial step towards developing novel therapeutic strategies to prevent or reverse long-term diabetic complications.