TY - JOUR
T1 - Insights from molecular dynamics simulations: structural basis for the V567D mutation-induced instability of zebrafish alpha-dystroglycan and comparison with the murine model.
AU - Pirolli, Davide
AU - Sciandra, Francesca
AU - Bozzi, Manuela
AU - Giardina, Bruno
AU - Brancaccio, Andrea
AU - De Rosa, Maria Cristina
PY - 2014
Y1 - 2014
N2 - A missense amino acid mutation of valine to aspartic acid in 567 position of alphadystroglycan
(DG), identified in dag1-mutated zebrafish, results in a reduced
transcription and a complete absence of the protein. Lacking experimental structural
data for zebrafish DG domains, the detailed mechanism for the observed mutationinduced
destabilization of the DG complex and membrane damage, remained unclear.
With the aim to contribute to better clarify the structure-function relationships featuring
the DG complex, three-dimensional structural models of wild-type and mutant (V567D)
C-terminal domain of alpha-DG from zebrafish were constructed by a template-based
modelling approach. We then ran extensive molecular dynamics (MD) simulations to
reveal the structural and dynamic properties of the C-terminal domain and to evaluate
the effect of the single mutation on alpha-DG stability. A comparative study has been
also carried out on our previously generated model of murine alpha-DG C-terminal
domain including the I591D mutation, which is topologically equivalent to the V567D
mutation found in zebrafish. Trajectories from MD simulations were analyzed in detail,
revealing extensive structural disorder involving multiple beta-strands in the mutated
variant of the protein. A biochemical analysis of the murine alpha-DG mutant I591D
confirmed a pronounced instability of the protein. Taken together, the computational
and biochemical analysis suggest that the V567D/I591D mutation, belonging to the G
beta-strand, plays a key role in inducing a destabilization of the alpha-DG C-terminal
Ig-like domain that could possibly affect and propagate to the entire DG complex. The
structural features herein identified may be of crucial help to understand the molecular
basis of primary dystroglycanopathies.
AB - A missense amino acid mutation of valine to aspartic acid in 567 position of alphadystroglycan
(DG), identified in dag1-mutated zebrafish, results in a reduced
transcription and a complete absence of the protein. Lacking experimental structural
data for zebrafish DG domains, the detailed mechanism for the observed mutationinduced
destabilization of the DG complex and membrane damage, remained unclear.
With the aim to contribute to better clarify the structure-function relationships featuring
the DG complex, three-dimensional structural models of wild-type and mutant (V567D)
C-terminal domain of alpha-DG from zebrafish were constructed by a template-based
modelling approach. We then ran extensive molecular dynamics (MD) simulations to
reveal the structural and dynamic properties of the C-terminal domain and to evaluate
the effect of the single mutation on alpha-DG stability. A comparative study has been
also carried out on our previously generated model of murine alpha-DG C-terminal
domain including the I591D mutation, which is topologically equivalent to the V567D
mutation found in zebrafish. Trajectories from MD simulations were analyzed in detail,
revealing extensive structural disorder involving multiple beta-strands in the mutated
variant of the protein. A biochemical analysis of the murine alpha-DG mutant I591D
confirmed a pronounced instability of the protein. Taken together, the computational
and biochemical analysis suggest that the V567D/I591D mutation, belonging to the G
beta-strand, plays a key role in inducing a destabilization of the alpha-DG C-terminal
Ig-like domain that could possibly affect and propagate to the entire DG complex. The
structural features herein identified may be of crucial help to understand the molecular
basis of primary dystroglycanopathies.
KW - dystroglycan
KW - dystroglycan
UR - http://hdl.handle.net/10807/61254
U2 - 10.1371/journal.pone.0103866
DO - 10.1371/journal.pone.0103866
M3 - Article
SN - 1932-6203
VL - 9
SP - N/A-N/A
JO - PLoS One
JF - PLoS One
ER -