Concetti Chiave
LRMP inhibits the cAMP-dependent potentiation of HCN4 channels by disrupting the intramolecular signal transduction between cyclic nucleotide binding and channel gating, in an HCN4-specific manner.
Sintesi
The content describes how the lymphoid restricted membrane protein (LRMP) regulates the hyperpolarization-activated cyclic nucleotide-sensitive (HCN4) channel. Key highlights:
- LRMP prevents the cAMP-dependent depolarizing shift in HCN4 activation without affecting cAMP binding to the channel.
- The N-terminal 227 residues of LRMP are necessary and sufficient for regulating HCN4, and this region interacts with the N-terminus of HCN4.
- The distal N-terminus and specific residues in the C-linker and S5 region of HCN4 are required for LRMP regulation.
- Introducing the HCN4 N-terminus and mutating 5 residues in the HCN2 C-linker and S5 regions to the cognate HCN4 residues is sufficient to confer LRMP regulation onto HCN2.
- The results suggest LRMP disrupts the intramolecular signal transduction between cAMP binding and channel gating in an HCN4-specific manner, likely via effects on the cAMP transduction center formed by the N-terminus, C-linker, and S4-S5 linker.
Statistiche
"HCN4 in the presence of LRMP 1-479Cit showed a significant slowing of deactivation in response to cAMP (P = 0.0310)."
"Truncation of the first 185 residues of the HCN4 N-terminus completely abolished LRMP regulation of the channel."
"Mutation of the two non-conserved residues in the HCN2 C-linker (HCN2 A467P/F469T) alone were not sufficient to confer regulation by LRMP onto HCN2."
"The chimeric HCN2-4N VVGPT channel, containing the HCN4 distal N-terminus and 5 HCN4-specific residues near the cAMP-transduction center, was fully regulated by LRMP."
Citazioni
"LRMP inhibits HCN4 through an isoform-specific interaction involving the N-terminals of both proteins that prevents the transduction of cAMP binding into a change in channel gating via an HCN4-specific orientation of the N-terminus, C-linker, and S4-S5 linker."
"The N-terminus of LRMP is tethered to HCN4 via an interaction between the N-terminals of the two proteins. Within the HCN4, the interaction with LRMP occurs via the distal N-terminus, which is not resolved in channel structures and is completely divergent between HCN channel isoforms."
"Our model is that LRMP interacts with the N-terminus of the HCN4 and prevents cAMP regulation of the channel allosterically via effects on the unique transduction centre."