A dihydropyridine receptor alpha1s loop region critical for skeletal muscle contraction is intrinsically unstructured and binds to a SPRY domain of the type 1 ryanodine receptor

The II-III loop of the dihydropyridine receptor (DHPR) alpha(1s) subunit is a modulator of the ryanodine receptor (RyR1) Ca(2+) release channel in vitro and is essential for skeletal muscle contraction in vivo. Despite its importance, the structure of this loop has not been reported. We have investi...

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Bibliographic Details
Published in:The international journal of biochemistry & cell biology 2009-03, Vol.41 (3), p.677
Main Authors: Cui, Yanfang, Tae, Han-Shen, Norris, Nicole C, Karunasekara, Yamuna, Pouliquin, Pierre, Board, Philip G, Dulhunty, Angela F, Casarotto, Marco G
Format: Article
Language:English
Subjects:
Animals
Binding Sites
Calcium Channels, L-Type - chemistry
Calcium Channels, L-Type - genetics
Calcium Channels, L-Type - metabolism
Crystallization
Humans
In Vitro Techniques
Magnetic Resonance Imaging
Membrane Proteins - chemistry
Membrane Proteins - metabolism
Muscle Contraction - physiology
Muscle, Skeletal - physiology
Mutagenesis, Site-Directed
Mutant Chimeric Proteins - chemistry
Mutant Chimeric Proteins - genetics
Mutant Chimeric Proteins - metabolism
Phosphoproteins - chemistry
Phosphoproteins - metabolism
Protein Binding
Protein Interaction Domains and Motifs - physiology
Protein Structure, Secondary
Ryanodine Receptor Calcium Release Channel - chemistry
Ryanodine Receptor Calcium Release Channel - metabolism
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Summary:The II-III loop of the dihydropyridine receptor (DHPR) alpha(1s) subunit is a modulator of the ryanodine receptor (RyR1) Ca(2+) release channel in vitro and is essential for skeletal muscle contraction in vivo. Despite its importance, the structure of this loop has not been reported. We have investigated its structure using a suite of NMR techniques which revealed that the DHPR II-III loop is an intrinsically unstructured protein (IUP) and as such belongs to a burgeoning structural class of functionally important proteins. The loop does not possess a stable tertiary fold: it is highly flexible, with a strong N-terminal helix followed by nascent helical/turn elements and unstructured segments. Its residual structure is loosely globular with the N and C termini in close proximity. The unstructured nature of the II-III loop may allow it to easily modify its interaction with RyR1 following a surface action potential and thus initiate rapid Ca(2+) release and contraction. The in vitro binding partner for the II-III was investigated. The II-III loop interacts with the second of three structurally distinct SPRY domains in RyR1, whose function is unknown. This interaction occurs through two preformed N-terminal alpha-helical regions and a C-terminal hydrophobic element. The A peptide corresponding to the helical N-terminal region is a common probe of RyR function and binds to the same SPRY domain as the full II-III loop. Thus the second SPRY domain is an in vitro binding site for the II-III loop. The possible in vivo role of this region is discussed.
ISSN:1878-5875
DOI:10.1016/j.biocel.2008.08.004