L5.2 Intercellular Communication Flashcards
what are the types of extracellular messengers?
- paracrines: short-range chemical messengers; exert effect only on neighbouring cells in immediate environment of secretion site
- neurotransmitters: short-range chemical messengers; secreted by neurons in response to action potentials; act locally on neurons, muscle or glands
- hormones: long-range messengers; secreted into the blood by endocrine glands; exert effect on target cells some distance away from release site
- neurohormones: hormones released into the blood neurons; distributed through blood to distant target cells
explain cellular receptors
- target cells detect a signal when the extracellular messenger binds to a receptor
- extracellular messengers have a complementary shape to a specific receptor : a cell can only receive the message if it has the ‘right’ receptor
- the receptor changes shapes and becomes activated when a messenger has bound
- receptors can be in the cell membrane or inside the cell
explain cellular receptors
- target cells detect a signal when the extracellular messenger binds to a receptor
- extracellular messengers have a complementary shape to a specific receptor : a cell can only receive the message if it has the ‘right’ receptor
- the receptor changes shapes and becomes activated when a messenger has bound
- receptors can be in the cell membrane or inside the cell
explain cellular receptors
- target cells detect a signal when the extracellular messenger binds to a receptor
- extracellular messengers have a complementary shape to a specific receptor : a cell can only receive the message if it has the ‘right’ receptor
- the receptor changes shapes and becomes activated when a messenger has bound
- receptors can be in the cell membrane or inside the cell
explain receptors in the plasma membrane
- most extracellular messengers bind to receptors in the cell membrane : large or hydrophilic messengers
- these messengers cause an effect on the cell through three mechanisms:
1. opening/closing chemically gated receptor channels
2. activating receptor enzymes
3. activating second messenger pathways through G-protein-coupled receptors
explain chemically gated receptor channels
- extracellular messenger binds to receptors
- binding of messenger leads to opening of channel
- ions enter
- ion entry brings about desired response (through multiple differing steps)
- cellular response
explain signal transduction
- the process by which incoming signals are conveyed to the target cell’s interior
- usually a cascade of protein activation inside the cell
explain signal transduction pathways
extracellular messenger binds to receptor activates intracellular signal molecules alters designated proteins creates cellular response
see notes for receptor enzymes, g-protein-coupled receptors and intracellular receptors
see notes for receptor enzymes, g-protein-coupled receptors and intracellular receptors
nervous system consists of ________ which secrete _________
nervous system consists of NEURONS (AND SUPPORTING CELLS) which secrete NEUROTRANSMITTERS
endocrine system consists of ________ which secrete _________
endocrine system consists of ENDOCRINE GLANDS which secrete HORMONES
compare the nervous system and endocrine system in relation to “the nervous system is ‘wired’ and the endocrine system is ‘wireless’”
- the nervous system is anatomically linked to the target cells
- endocrine glands are anatomically separated from the target cells
compare the nervous system and endocrine system in relation to the type of chemical messenger
nervous: neurotransmitters
endocrine: hormones
compare the nervous system and endocrine system in relation to distance of action of the chemical messenger
nervous: short distance (across synaptic cleft)
endocrine: long distance (into the blood)
compare the nervous system and endocrine system in relation to the specificity of messenger
nervous: specificity depends on the closeness of neurons and target cells
endocrine: specificity depends on the presence of the target receptor
