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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neuronal nitric oxide synthase (nNOS) is abundantly expressed in skeletal muscle where it associates with the dystrophin complex at the sarcolemma by binding to the PDZ domain of
alpha-syntrophin
. Nitric oxide (NO) produced by skeletal muscle nNOS is proposed to regulate blood flow in exercising muscle by diffusing from the skeletal muscle fibers to the nearby microvessels where it attenuates alpha-adrenergic vasoconstriction. In the present study, we hypothesized that sarcolemmal localization of nNOS is a critical determinant of the vasoregulatory effect of skeletal muscle-derived NO. To test this hypothesis, we performed experiments in
alpha-syntrophin
null mice and in transgenic mice expressing a mutated
alpha-syntrophin
lacking the PDZ domain (DeltaPDZ), both of which are characterized by reduced sarcolemmal nNOS. We found that modulation of alpha-adrenergic vasoconstriction was greatly impaired in the contracting muscles of the
alpha-syntrophin
null mice and transgenic DeltaPDZ mice compared with wild-type mice and transgenic mice expressing full-length
alpha-syntrophin
. These in vivo mouse studies highlight the functional importance of appropriate membrane targeting of nNOS by the dystrophin-associated protein
alpha-syntrophin
and may have implications for the development of potential gene therapy strategies to treat
muscular dystrophy
or other muscle-related diseases.
...
PMID:Vasomodulation by skeletal muscle-derived nitric oxide requires alpha-syntrophin-mediated sarcolemmal localization of neuronal Nitric oxide synthase. 1260 Aug 81
The syntrophins are modular adapter proteins that function by recruiting signaling molecules to the cytoskeleton via their direct association with proteins of the dystrophin protein family. We investigated the physiological function of beta2-syntrophin by generating a line of mice lacking this syntrophin isoform. The beta2-syntrophin null mice show no overt phenotype, or
muscular dystrophy
, and form structurally normal neuromuscular junctions (NMJs). To determine whether physiological consequences caused by the lack of beta2-syntrophin were masked by compensation from the
alpha-syntrophin
isoform, we crossed these mice with our previously described
alpha-syntrophin
null mice to produce mice lacking both isoforms. The alpha/beta2-syntrophin null mice have NMJs that are structurally more aberrant than those lacking only
alpha-syntrophin
. The NMJs of the alpha/beta2-syntrophin null mice have fewer junctional folds than either parent strain, and the remaining folds are abnormally shaped with few openings to the synaptic space. The levels of acetylcholine receptors are reduced to 23% of wild type in mice lacking both syntrophin isoforms. Furthermore, the alpha/beta2-syntrophin null mice ran significantly shorter distances on voluntary exercise wheels despite having normal neuromuscular junction transmission as determined by micro-electrode recording of endplate potentials. We conclude that both
alpha-syntrophin
and beta2-syntrophin play distinct roles in forming and maintaining NMJ structure and that each syntrophin can partially compensate for the loss of the other.
...
PMID:Structural abnormalities at neuromuscular synapses lacking multiple syntrophin isoforms. 1554 43
Alpha1-syntrophin, a scaffolding adapter and modular protein, is a cytoplasmic component of the dystrophin glycoprotein complex. This study investigated immunohistochemically the expression of
alpha1-syntrophin
in Duchenne and Fukuyama muscular dystrophies (DMD and FCMD, respectively). Biopsied muscles of five DMD, five FCMD, five normal controls and five disease controls (three myotonic and two facioscapulohumeral dystrophies) were analyzed. Immunoblot analysis showed that anti-
alpha1-syntrophin
antibody had a decreased reaction in both DMD and FCMD muscle extracts. Biopsied muscle sections and their serial sections were immunostained with rabbit anti-
alpha1-syntrophin
and rabbit anti-muscle-specific beta-spectrin antibodies, respectively. Immunoreactive patterns of sarcolemma were classified into (i) a continuously positive immunostaining pattern, (ii) a partially positive immunostaining pattern, (iii) a negative immunostaining pattern and (iv) a faint but entire surface positive immunostaining pattern. The group mean percentages of
alpha1-syntrophin
and beta-spectrin immunonegative myofibers in the DMD group were 39.3% and 10.8%, respectively, while those in the FCMD group were 45.5% and 10.4%, respectively. These values were statistically significant compared with those of disease control and normal control muscles. Thus we found that dystrophin-deficient DMD muscles contained significant numbers of
alpha1-syntrophin
-positive fibers and significant numbers of
alpha1-syntrophin
-negative fibers were present in dystrophin-positive muscles of severe
muscular dystrophy
such as FCMD. Alpha-dystrobrevin immunoreactivity was tested in DMD muscles and appreciable amounts of alpha-dystrobrevin that binds to syntrophin were found in DMD muscle membranes.
...
PMID:Altered alpha1-syntrophin expression in myofibers with Duchenne and Fukuyama muscular dystrophies. 1626 84
alpha-Dystrobrevin associates with and is a homologue of dystrophin, the protein linked to Duchenne and Becker muscular dystrophies. We used a transgenic approach to restore alpha-dystrobrevin to the sarcolemma in mice that lack dystrophin (mdx mice) to study two interrelated functions: (1) the ability of alpha-dystrobrevin to rescue components of the dystrophin complex in the absence of dystrophin and (2) the ability of sarcolemmal alpha-dystrobrevin to ameliorate the dystrophic phenotype. We generated transgenic mice expressing alpha-dystrobrevin-2a linked to a palmitoylation signal sequence and bred them onto the alpha-dystrobrevin-null and mdx backgrounds. Expression of palmitoylated alpha-dystrobrevin prevented the
muscular dystrophy
observed in the alpha-dystrobrevin-null mice, demonstrating that the altered form of alpha-dystrobrevin was functional. On the mdx background, the palmitoylated form of alpha-dystrobrevin was expressed on the sarcolemma but did not significantly ameliorate the
muscular dystrophy
phenotype. Palmitoylated dystrobrevin restored
alpha-syntrophin
and aquaporin-4 (AQP4) to the mdx sarcolemma but was unable to recruit beta-dystroglycan or the sarcoglycans. Despite restoration of sarcolemmal
alpha-syntrophin
, neuronal nitric oxide synthase (nNOS) was not localized to the sarcolemma, suggesting that nNOS requires both dystrophin and
alpha-syntrophin
for correct localization. Thus, although nNOS and AQP4 both require interaction with the PDZ domain of
alpha-syntrophin
for sarcolemmal association, their localization is regulated differentially.
...
PMID:Differential targeting of nNOS and AQP4 to dystrophin-deficient sarcolemma by membrane-directed alpha-dystrobrevin. 1805 22
Duchenne muscular dystrophy (DMD) is the most common and lethal genetic muscle disorder lacking a curative treatment. We wish to use the dystrophin-deficient golden retriever
muscular dystrophy
(GRMD) dog, a canine model of DMD, to investigate adeno-associated virus (AAV) vector-mediated minidystrophin gene therapy. The dog model is useful in evaluating vector dose requirement and immunological consequences owing to its large size and outbred nature. In this study, we have cloned and constructed a canine minidystrophin gene vector. Owing to limited availability of the GRMD dogs, here we first examined the functions and therapeutic effects of the canine minidystrophin in the mdx mouse model. We observed efficient minigene expression without cellular immune responses in mdx mice after AAV1-cMinidys vector intramuscular injection. We also observed restoration of the missing dystrophin-associated protein complex (DPC) onto the sarcolemma, including sarcoglycans and dystrobrevin, and a partial restoration of
alpha-syntrophin
and neural nitric oxide synthase (nNOS). In addition, minidystrophin treatment ameliorated dystrophic pathology, such as fibrosis and myofiber central nucleation (CN). CN remained minimal (<2%) after AAV injection in the neonatal mdx mice and was reduced from more than 75% to about 25% after AAV injection in adult mdx mice. Finally, in vivo cell membrane leakage test with Evans blue dye showed that the canine minidystrophin could effectively protect the myofiber plasma membrane integrity. Our results, thus, demonstrated the functionality and therapeutic potential of the canine minidystrophin and paved its way for further testing in the GRMD dog model.
...
PMID:A canine minidystrophin is functional and therapeutic in mdx mice. 1843 77
Aquaporin-4 (AQP4) is the major water channel expressed in fast-twitch skeletal muscle fibers. AQP4 is reduced in Duchenne and Becker
Muscular Dystrophies
, but not in caveolinopathies, thus suggesting an interaction with dystrophin or with members of the dystrophin-glycoprotein complex (DGC) rather than a nonspecific effect due to muscle membrane damage. To establish the role of sarcoglycans in AQP4 decrease occurring in
muscular dystrophy
, AQP4 expression was analyzed in muscle biopsies from patients affected by Limb Girdle Muscular Dystrophies (LGMDs) 2C-F genetically confirmed. In all the LGMD 2C-F (2alpha-, 1beta-, 2gamma-, 1delta-deficiency), AQP4 was severely decreased. This effect was associated to a marked reduction in
alpha1-syntrophin
levels. In control muscle AQP4 did not show a direct interaction with any of the four sarcoglycans but, it co-immunoprecipitated with
alpha1-syntrophin
, indicating that this modular protein may link AQP4 levels with the DGC complex. To determine whether AQP4 expression could be affected in other LGMDs due to the defect of a membrane protein not associated to the dystrophin complex, we examined AQP4 expression in 6 patients affected by dysferlin deficiency genetically confirmed. All the patients displayed a reduction of the water channel, and AQP4 expression appeared to correlate with the severity of the muscle histopathological lesions. However, differently from what observed in the sarcoglycans,
alpha1-syntrophin
expression was normal or just slightly reduced. These results seem to indicate an additional mechanism of regulation of AQP4 levels in muscle cells. In accordance with a specific effect of membrane muscle disorders, AQP4 protein levels were not changed in 3 mitochondrial and 3 metabolic myopathies. In conclusion, AQP4 expression and membrane localization are markedly reduced in LGMD 2B-2F. The role of AQP4 in the degenerative mechanism occurring in these diseases will be the object of our future research.
...
PMID:Aquaporin-4 expression is severely reduced in human sarcoglycanopathies and dysferlinopathies. 1864 58
