receptors and their mode of signalling. communication multicellular organisms require precise...
TRANSCRIPT
receptors and their mode of signalling
communication
Multicellular organisms require precise coordination of cellular activities
Communication par
Substances solubleshormonesneurotransmetteursneuropeptidescytokines facteurs de croissance interleukines facteurs d’inflammation
Cellulesnerfs (par propagation d’un potentiel d’action)
Image: Graham Johnson
Cells communicate with each other through first messengers
Cells communicate with each other through first
messengers
Cells communicate with each other through first messengers
Communication, employing first messengers, occurs in different ways
one characteristic of cells is their protected interieur (only accessible through selective transport mechanisms)
The plasma membrane, surrounding the cell, is an efficient barrier for the majority of physiological substances
Transmembrane proteins are therefore essential to communicate with the cellular environment (other cells as well as extracellular matrix)
Langley proposed (around 1905) that first messengers, as well as exogenous substances that affect cellular functions, don’t interact with the entire cell
but with small quantities of « receptive substances ».
membrane (and intracellular) receptors transmit signals from first messengers into the cell
The cellular response to a first messenger depends on the cellular context
Binding of insulin causes receptor trans-phosphorylation and signalling complex formationHere tyrosine phosphoresidues render the receptor active. The active receptor phosphorylates a docking protein (IRS1)
which then attracts an effector protein PI 3-kinase
Binding of insulin causes receptor trans-phosphorylation and signalling complex formationHere tyrosine phosphoresidues render the receptor active. The active receptor phosphorylates a docking protein (IRS1)
which then attracts an effector protein PI 3-kinase
Modification of protein activity or function through post-translational modification
Addition of a phosphate (covalent), phosphorylation
Exchange of nucleotide (non-covalent interaction)-GDP for GTP (GTP-binding proteins and tubuline (microtubules)-ADP for ATP (motor proteins such as kinesine or myosine)
Addition of an ubiquitin (covalent)
Addition of a sugar group (covalent)
Addition of a fatty acid or isoprenoid
Modification of protein activity or function through post-translational modification
Addition of a phosphate (covalent), phosphorylation
Exchange of nucleotide (non-covalent interaction)-GDP for GTP (GTP-binding proteins and tubuline (microtubules)-ADP for ATP (motor proteins such as kinesine or myosine)
Addition of an ubiquitin (covalent)
Addition of a sugar group (covalent)
Addition of a fatty acid or isoprenoid
Modification of protein activity or function through post-translational modification
Addition of a phosphate (covalent), phosphorylation
Exchange of nucleotide (non-covalent interaction)-GDP for GTP (GTP-binding proteins and tubuline (microtubules)-ADP for ATP (motor proteins such as kinesine or myosine)
Addition of an ubiquitin (covalent)
Addition of a sugar group (covalent)
Addition of a fatty acid or isoprenoid
