regulation of blood glucose concentration

Created by

Bupe katebe

Cards (15)

what is glycogenolysis?
when glycogen in the liver is broken down into glucose
what is gluconeogenesis?
production of glucose from non-carbohydrate sources- eg liver making glucose from glycerol and AAs.
what is glycogenesis?
production of glycogen
what happens when blood sugar is too high?
beta cells in the pancreas detect the blood glucose levels and secrete insulin directly into the bloodstream
insulin binds to glycoprotein receptor, causing change in tertiary structure of glucose transport protein channels
channels open allowing more glucose to enter the cell
insulin activates enzymes within cells to convert glucose into glycogen and fat
in turn this lowers the glucose concentration in the blood (blood glucose concentration)
in what ways throughout the body does insulin lower blood glucose concentration?
increases rate of absorption of glucose by cells
increases respiratory rate of cells so they have a higher demand for glucose
increases rate of glycogenesis
increases rate of glucose to fat and glycogen conversion in cells
inhibits release of glucagon from alpha cells from IOL
how is insulin broken down and how does insulin maintain its affect in the bloodstream?
broken down by enzymes in liver cells
so must be secreted constantly
true or false- all cells have glucagon receptors
FALSE- only liver and fat cells
true or false- almost all cells have insulin receptors
TRUE- except erythrocytes
in what ways does glucagon raise blood sugar concentration throughout the body?
glycogenolysis
reducing amount of glucose absorbed by liver cells
increases gluconeogenesis- conversion of AAs and glycerol into glucose
how do insulin and glucagon work together to maintain constant blood glucose concentration?
they are antagonistic - system is self regulating- the level of glucose in the blood determines quantity of insulin and glucagon released
negative feedback- when blood glucose is too high/low etc
describe the mechanism of the control of insulin secretion
at normal [blood glucose]- K ion channels are open in plasma membranes of beta cells (-70mv) resting potential
when blood glucose levels rise, glucose enters cell via glucose transporter
glucose metabolised in mitochondria, ATP is produced
ATP binds to potassium channels and causes them to close
potassium ions can't diffuse out, so depolarisation occurs and the membrane goes to -30mV
calcium ion channels open and Ca ions enter, causing secretory vesicles to release insulin they contain by exocytosis
state the ways in which blood glucose concentration in the blood can be lowered and raised
LOWERED-
respiration- glucose in blood is used by cells to release energy
glycogenesis- glucose converted into glycogen in the liver
RAISED-
diet- eating carbohydrate rich food- these carbs are broken down into glucose which is absorbed into the bloodstream, increasing blood glucose concentration
gluconeogenesis- production of glucose from non-carbohydrate sources- glycerol and amino acids
glycogenolysis- breakdown of glycogen into glucose, glucose released into bloodstream
describe how negative feedback ensures that blood glucose levels are regulated by beta cells
when blood glucose concentration falls below a set level, beta cells decrease their insulin secretion- this is an example of negative feedback, allowing glucose concentration to rise to more optimal levels
describe how negative feedback ensures that blood glucose levels are regulated by alpha cells 
alpha cells detect that blood glucose concentration is above a certain level
therefore they reduce their secretion of glucagon- this is an example of negative feedback
true or false? blood glucose concentration is constant
FALSE- fluctuates around a certain level because of negative feedback