Metabolic changes in well feed state, starvation ,dm
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METABOLIC CHANGES IN WELL FEED STATE, STARVATION ,DM
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METABOLIC CHANGES IN WELL FEED STATE
All body cells use glucose for energy. To maintain this constant source of energy, blood
glucose levels must be kept between 3.3-6.1 mmol/L
Several hormones, help to maintain this level between 3.3-6.1mmol/L, include insulin, glucagon
The insulin and the glucagon together maintain a constant level of glucose in the blood
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INSULIN
Insulin is a small peptide hormone produced by beta cells of the pancreas
Molecular weight of 5808 Da 51 amino acids ,two amino acid chains A and B chains are linked together by two disulfide
bonds A chain consists of 21 amino acids and the B chain
of 30 amino acids.
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ACTION OF INSULIN ON CARBOHYDRATE,
Facilitates the transport of glucose into muscle and adipose cells.
Facilitates the conversion of glucose to glycogen for storage in the liver and muscle by ↑ glycogen synthase.
Decreases the breakdown and release of glucose from glycogen by the liver by↓ glycogen phospharylase activity.
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ACTION OF INSULIN ON PROTEIN.
Stimulates protein synthesis Inhibits protein breakdown; diminishes
gluconeogenesis by ↓ pyruvate carboxylases activity ↓PEP carboxkinases. ↓ Fructose 1,6 bisphosphates. ↓glucose 6 phosphates.
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ACTION OF INSULIN ON FAT METABOLISM
Inhibition of FFA mobilization from adipose tissue via suppression of lipolysis by inhibiting activity of hormone sensitive lipase
Inhibition of plasma FFA uptake and oxidation via suppression of lipolysis
Inhibition of hepatic VLDL synthesisSuppression of circulating ketone body concentrations
Activation of adipose lipoprotein lipaseStimulation of lipogenesis
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INSULIN SECRETION
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GLUCAGON
Alpha cells of the islets of Langerhans ,pancreases.
Blood glucose concentration falls.Mol wt of 3485 Da.Large polypeptide ,29 amino acids.Most important of these functions is to increase
the blood glucose concentration ,an effect that is exactly the opposite that of insulin
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The major effects on glucose metabolism breakdown of liver glycogen (glycogenolysis) ↑glycogen
phosphorylases activity. increase gluconeogenesis in the liver by
↑ pyruvate carboxylases ↑ PEP carboxkinases ↑ Fructose 1,6 bisphosphates ↑ Fructose 1,6 bisphosphates
Also involved in stimulating hormone sensitive lipase and
promoting lipolysis.
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Glucagon binds to the glucagon receptor,( a G protein-coupled receptor).• conformational change
• replacement of the GDP molecule that was bound to the α subunit with a GTP molecule.
• releasing of the α subunit from the β and γ subunits.
• The alpha subunit specifically activates the next enzyme in the cascade, adenylate cyclase.
• cyclic adenosine monophosphate (cAMP), which activates protein kinase A (cAMP-dependent protein kinase).
• This enzyme, in turn, activates phosphorylase kinase, which, in turn, phosphorylates glycogen phosphorylase, converting into the active form called phosphorylase A
• .Phosphorylase A is the enzyme responsible for the release of glucose-1-phosphate from glycogen polymers.
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METABOLIC CHANGES IN STARVATION Early ,Intermediate, Advance stages of starvation
Early stage (2 days)• Glycogenolysis and gluconeogenesis are imp source of blood glucose.• Energy from alternate source (β oxdn FA, KB).
Intermediate stage (24 days)• glycogen stores mostly depleted not serve as source blood glucose.• FA ,KB supplied to heart, kidney ,muscles.
Advanced stage (>24 days)• KB supplies to heart, kidney ,muscles is decreased , limited to brain only.• Heart, kidney ,muscles on FA as main source.• Gluconeogenesis will enhanced due to increased activity of enzymes
pyruvate carboxylase, fructose 1,6 bisphosphates,
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Fig 19.1019-44
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Figure 16.18
DIABETES MELLITUS (DM)
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SUMMARY
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INSULIN GLUCAGON
Glucose uptake stimulates Inhibition
Glycogenesis stimulates Inhibition
Glycogenolysis stimulates stimulates
Gluconeogenesis inhibition stimulates
Protein synthesis stimulates inhibition
Protein degradation Inhibition stimulates
Lipolysis Inhibition Stimulates
Ketone body Inhibition Stimulates
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THANK YOU
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