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Regulation of Digestion

Nervous System

  • Nervous system effects

    • Control of muscular and glandular activity by local nerves in alimentary canal

    • Long-distance regulation by the brain

Hormones

  • Secreted mainly by cells scattered throughout the epithelium of stomach and small intestine

  • Target cells in pancreas and gallbladder

  • Insulin and glucagon are antagonistic hormones that help maintain glucose homeostasis.

  • Glucagon: increases blood glucose levels by stimulating conversion of glycogen to glucose in the liver and the breakdown of fat and protein into glucose

  • Insulin: reduces blood glucose levels by promoting the cellular uptake of glucose, slowing glycogen breakdown in the liver, promoting fat storage

  • Leptin: produced by adipose (fat) tissue; suppresses appetite as its level increases.

    • When body fat decreases, leptin levels fall, and appetite increases.

  • PYY: secreted by the small intestine after meals; acts as an appetite suppressant that counters the appetite stimulant ghrelin.

  • Ghrelin: secreted by the stomach wall; triggers feelings of hunger.

    • In dieters who lose weight, ghrelin levels increase, which may be one reason it’s so hard to stay on a diet.

  • Insulin: secreted by the pancreas when there’s a rise in blood sugar level after a meal; suppresses appetite by acting on the brain.

Homeostasis

  • The human body imposes a limit in the amount of fat it stores or uses up.

  • A complex feedback mechanism regulates the storage and use of fat.

    • The hormone leptin is produced by the adipose tissue.

    • High leptin level cues the brain to depress appetite and to increase energy-consuming muscular activity and body-heat production.

    • Loss of body fat decreases the leptin levels in the blood, and the brain is signaled to increase appetite and weight gain.

    • Genes are involved in fat homeostasis.

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BiologyAnatomy

Regulation of Digestion

Nervous System

  • Nervous system effects

    • Control of muscular and glandular activity by local nerves in alimentary canal

    • Long-distance regulation by the brain

Hormones

  • Secreted mainly by cells scattered throughout the epithelium of stomach and small intestine

  • Target cells in pancreas and gallbladder

  • Insulin and glucagon are antagonistic hormones that help maintain glucose homeostasis.

  • Glucagon: increases blood glucose levels by stimulating conversion of glycogen to glucose in the liver and the breakdown of fat and protein into glucose

  • Insulin: reduces blood glucose levels by promoting the cellular uptake of glucose, slowing glycogen breakdown in the liver, promoting fat storage

  • Leptin: produced by adipose (fat) tissue; suppresses appetite as its level increases.

    • When body fat decreases, leptin levels fall, and appetite increases.

  • PYY: secreted by the small intestine after meals; acts as an appetite suppressant that counters the appetite stimulant ghrelin.

  • Ghrelin: secreted by the stomach wall; triggers feelings of hunger.

    • In dieters who lose weight, ghrelin levels increase, which may be one reason it’s so hard to stay on a diet.

  • Insulin: secreted by the pancreas when there’s a rise in blood sugar level after a meal; suppresses appetite by acting on the brain.

Homeostasis

  • The human body imposes a limit in the amount of fat it stores or uses up.

  • A complex feedback mechanism regulates the storage and use of fat.

    • The hormone leptin is produced by the adipose tissue.

    • High leptin level cues the brain to depress appetite and to increase energy-consuming muscular activity and body-heat production.

    • Loss of body fat decreases the leptin levels in the blood, and the brain is signaled to increase appetite and weight gain.

    • Genes are involved in fat homeostasis.