6.4.5

Primary & Secondary Messengers

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Messengers

Control of blood glucose concentration involves both primary and secondary messengers.

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Primary messengers

  • Primary messengers are messengers that do not enter a cell.
  • Primary messengers exert an action on the cell membrane by binding to receptors and triggering a change within the cell.
  • This change can be the activation of another molecule (a secondary messenger) or it may initiate a reaction.
  • Hormones are examples of primary messengers (e.g. adrenaline and glucagon).
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Secondary messengers

  • Secondary messengers initiate and coordinate responses that take place inside a cell.
  • Secondary messengers are usually activated by the binding of a primary messenger to a cell surface receptor.
  • Cyclic AMP (cAMP) is an example of a secondary messenger.

Cyclic AMP

Cyclic AMP (cAMP) is a secondary messenger involved in the control of blood glucose concentration. The steps involved in the response are:

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Primary messengers

  • Adrenaline or glucagon bind to receptors on the cell membranes of liver cells.
    • Adrenaline and glucagon are primary messengers because they do not enter the cell.
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Adenylate cyclase

  • Binding of adrenaline or glucagon activates an enzyme called adenylate cyclase.
  • Adenylate cyclase converts ATP to cyclic AMP (cAMP).
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cAMP

  • cAMP activates an enzyme called protein kinase A.
  • Protein kinase A triggers a cascade of reactions that result in glycogenolysis.
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Glycogenolysis

  • Glycogenolysis breaks down glycogen into glucose.

Jump to other topics

1Biological Molecules

2Cells

3Substance Exchange

4Genetic Information & Variation

5Energy Transfers (A2 only)

6Responding to Change (A2 only)

7Genetics & Ecosystems (A2 only)

8The Control of Gene Expression (A2 only)

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