Glicólise, Gliconeogênese, Glicogenólise e Glicogênese - Apêndice 3 - Módulo 7: Fisiologia Humana

Prof. Guilherme Goulart - Biologia

17 Apr 202310:06

Summary

TLDRThis educational video provides a comprehensive explanation of the key processes involved in glucose metabolism: glycogenesis, glycogenolysis, glycolysis, and gluconeogenesis. It explains how glucose is stored as glycogen, broken down for energy, and how the body creates new glucose from non-carbohydrate sources when needed. The role of hormones like insulin, glucagon, cortisol, and growth hormone in regulating these processes is emphasized, particularly in response to physical activity, fasting, and stress. The lesson aims to clarify complex biological concepts in a simple and engaging way, helping viewers understand energy regulation in the body.

Takeaways

😀 Glycolysis is the process of breaking down glucose into pyruvate to produce ATP, a key energy source for the body.
😀 Glycogenolysis is the breakdown of glycogen into glucose, triggered by low blood glucose levels and regulated by glucagon.
😀 Glycogenesis is the formation of glycogen from glucose, which occurs when glucose levels are high and is regulated by insulin.
😀 Gluconeogenesis is the creation of glucose from non-carbohydrate sources such as fats and proteins, typically during fasting or exercise.
😀 Insulin promotes the storage of glucose as glycogen, reducing blood glucose levels and inhibiting glycogenolysis.
😀 Glucagon raises blood glucose levels by stimulating the breakdown of glycogen (glycogenolysis) and the production of glucose (gluconeogenesis).
😀 Growth hormone (GH) and cortisol both promote gluconeogenesis, especially in times of stress or fasting.
😀 Cortisol is released during stress or long periods of fasting, helping to mobilize energy reserves by promoting gluconeogenesis.
😀 Glycerol from fat stores and amino acids from proteins can be converted into glucose through gluconeogenesis to meet energy needs.
😀 Glycogen is a large chain of glucose molecules stored in the liver and muscles; when energy is needed, glycogen is broken down into glucose.
😀 The body utilizes different energy sources (glucose, glycogen, fat, and protein) depending on availability and energy demands, with various hormones regulating these processes.

Q & A

What is glycogenesis, and where does it occur in the body?
-Glycogenesis is the process of forming glycogen from glucose. It mainly occurs in the liver and muscles, where glucose is stored for later use as energy.
How does insulin contribute to glycogenesis?
-Insulin promotes the formation of glycogen from glucose, encouraging cells to store excess glucose in the form of glycogen, particularly in the liver and muscles.
What is glycogenolysis, and what triggers it?
-Glycogenolysis is the process of breaking down glycogen into glucose. It is triggered by the hormone glucagon when the body needs more glucose for energy, especially during periods of low blood sugar.
What is glycolysis, and what is its role in energy production?
-Glycolysis is the breakdown of glucose into two molecules of pyruvate, producing ATP (energy) in the process. It is a crucial step in the body’s energy production and occurs in the cytoplasm of cells.
How is glucose converted into pyruvate during glycolysis?
-During glycolysis, glucose (which has six carbon atoms) is split into two molecules of pyruvate (each containing three carbon atoms). This process generates ATP, which is used as energy by the body.
What happens when there is not enough glucose available in the body?
-When glucose levels are low, the body uses other energy sources, such as glycogen (through glycogenolysis), fat (through lipolysis), and even proteins (through gluconeogenesis) to produce glucose and meet energy needs.
What is gluconeogenesis, and when does it occur?
-Gluconeogenesis is the production of glucose from non-carbohydrate sources like fats, proteins, and pyruvate. It occurs when the body is low on glucose, such as during fasting or prolonged physical exertion.
Which hormones are involved in regulating glycogen metabolism?
-Insulin and glucagon are the primary hormones involved. Insulin promotes glycogen synthesis (glycogenesis), while glucagon stimulates glycogen breakdown (glycogenolysis) to release glucose into the bloodstream.
How does cortisol affect energy metabolism?
-Cortisol is a stress hormone that increases the production of glucose by promoting gluconeogenesis, helping to mobilize energy reserves, especially during stress or fasting.
What is the role of growth hormone (GH) in energy metabolism?
-Growth hormone (GH) helps mobilize energy reserves and can stimulate the breakdown of fat and proteins to generate glucose, contributing to energy production during periods of stress or fasting.