Cell to cell communication = Cell signalling Ligand (ex insulin, epinephrine)→ Receptor → G protein (GDP to GTP) → adenylyl cyclase→ cAMP (second messenger and signal amplification) → activate protein kinase (several kinds)→ phosphorylate a protein(s) (result in an effect) Involves a signal molecule secreted from one cell that interacts with receptors on a second cell. The secreted molecule could be a hormone, neurotransmitter, histamine or other substance that either acts locally (paracrine), moves through the bloodstream to another organ (endocrine) or is released by a neuron (synaptic). The molecule binding with the receptor initiates a sequence of events mediated by a g protein that that results in a biological effect. The type of effect depends on the secreted molecule and the cell type; some molecules can have different effects on different cells – the question is how?
Transcript
Cell to cell communication = Cell signalling
Ligand (ex insulin, epinephrine)→ Receptor → G protein (GDP to GTP) → adenylyl cyclase→ cAMP (second messenger and signal amplification) → activate protein kinase (several kinds)→ phosphorylate a protein(s) (result in an effect)
Involves a signal molecule secreted from one cell that interacts with receptors on a second cell. The secreted molecule could be a hormone, neurotransmitter, histamine or other substance that either acts locally (paracrine), moves through the bloodstream to another organ (endocrine) or is released by a neuron (synaptic). The molecule binding with the receptor initiates a sequence of events mediated by a g protein that that results in a biological effect. The type of effect depends on the secreted molecule and the cell type; some molecules can have different effects on different cells – the question is how?
Gap junction between two cells (ex muscle) to promote exchange of materials
Signals can either interact at the surface of the cell (protein hormones, growth factors) or inside the cell (steroid hormones, NO)
Different modes of signalling; we will focus on endocrine for now
Two keys steps for G protein activation/deactiviation:
•Exchange of GDP for GTP (controlled by guanine exchange factor (GEF)•Conversion of GTP to GDP (controlled by GTPase activating proteins (GAPs). This step deactivates adenylyl cyclase and stops production of cAMP.
Specific example of kinase activation( cAMP omitted)
FAMILY SOME FAMILY MEMBERS
ACTION MEDIATED BY
FUNCTIONS
I Gs α activates adenylyl cyclase; activates Ca2+ channels
Golf α activates adenylyl cyclase in olfactory sensory neurons
II Gi α inhibits adenylyl cyclase
βγ activates K+ channels
Go βγ activates K+ channels; inactivates Ca2+ channels
α and βγ activates phospholipase C-β
Gt (transducin) α activates cyclic GMP phosphodiesterase in vertebrate rod photoreceptors
