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Target Concepts:
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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dystrophin, the protein product of the Duchenne muscular dystrophy locus [Hoffman, E. P.,
Brown
, R. H., Jr., & Kunkel, L. M. (1987) Cell 51, 919-928], is expressed in striated and smooth muscles as well as in non-muscle tissues. Examination of its primary structure has revealed that the molecule is composed of four domains, three of which share many features with the membrane cytoskeletal proteins spectrin and actinin. Dystrophin has thus been predicted to adopt a rod shape [Koenig, M., Monaco, A. P. & Kunkel, L. M. (1988) Cell 53, 219-228]. In the present study, we describe its isolation from the chicken gizzard smooth muscle and present electron microscopic images of the molecule. Polyclonal antibodies were first prepared from a
dystrophin
fragment derived from the chicken skeletal muscle gene (residues 1173-1728). A
dystrophin
-enriched membrane preparation from chicken gizzard muscle was then purified by passing it through an affinity chromatography column made with the anti-
dystrophin
antibodies. Electron microscopy of isolated and rotatory-shadowed
dystrophin
molecules revealed that the lengths measured for the
dystrophin
monomers (175 +/- 15 nm) are compatible with a structural arrangement of the repeat sequence segments in triple-barrel alpha-helices connected by short-turn regions, as was earlier postulated for the repeat domains of spectrin and actinin. Electron microscopic images indicate that in addition the
dystrophin
molecules could present the same capacity of self-association in oligomeric structures as these cytoskeletal proteins and may thus be a part of a complex molecular meshwork essential to muscle cell function.
...
PMID:Isolated dystrophin molecules as seen by electron microscopy. 223 1
Most of
dystrophin
, the protein product of the Duchenne muscular dystrophy locus, is composed of spectrin-like repeats, suggesting that
dystrophin
is an elongated cytoskeletal molecule (Davison, M. D., and Critchley, D. R. (1988) Cell 52, 159-160; Koenig, M., Monaco, A. P., and Kunkel, L. M. (1988) Cell 53, 219-228). We present here a detailed analysis of the repeat domain of human
dystrophin
and propose that it is composed of 24 rather than 26 repeat units as previously suggested. Moreover, spacer sequences which do not align with the repeat consensus are present at the beginning and at the end of the repeat domain. Two other non-repeat spacers are found between repeat elements 3 and 4 and 19 and 20. The high proline content of each spacer suggests that it might represent a hinge. Using five new anti-
dystrophin
antisera and two previously described antisera (Hoffman, E. P.,
Brown
, R. H., Jr., and Kunkel, L. M. (1987a) Cell 51, 919-928) to detect different
dystrophin
peptides after proteolytic cleavage, we show that the four hinge segments are sensitive sites for proteolysis. We present a model for a membrane-associated network of
dystrophin
in which the hinges play a key role by conferring flexibility to the network and thus resilience to the membrane.
...
PMID:Detailed analysis of the repeat domain of dystrophin reveals four potential hinge segments that may confer flexibility. 240 39
A hitherto unknown skeletal muscle disorder is described in six Braunvieh x
Brown
Swiss calves. The animals showed rapidly progressing muscular weakness and became recumbent within 2 weeks of birth. Histological examination of skeletal muscle revealed a marked variation in muscle fibre size, internally placed nuclei, segmental loss of cross-striation with disorganization of myofibrils, and accumulation of nemaline rods. The most distinctive histological finding was intracytoplasmic, homogeneous, mostly crescent-shaped areas at the periphery of numerous muscle fibres. Electron microscopically, accumulations of tightly packed, parallel filamentous structures, about 20 nm in diameter, were detected in these areas. Enzyme histochemistry showed that all muscle fibre types were affected. Vimentin and
dystrophin
immunohistochemistry revealed normal antigen distribution within connective tissue components and at the periphery of each muscle fibre, respectively. The lesions could be readily distinguished from other neurological and neuromuscular disorders previously described in Braunvieh x
Brown
Swiss or American
Brown
Swiss Cattle. The disease appears to be a novel congenital myopathy in this breed, and a hereditary aetiology is suspected.
...
PMID:Congenital myopathy in Braunvieh x Brown Swiss calves. 887 49
The SHIRPA protocol was proposed as a rapid, comprehensive screening method for qualitatively abnormal phenotypes in the mouse (Rogers et al., Mamm Genome 8, 711, 1997). This screening technique is currently being used to identify mutants induced by N-ethylnitrosourea (ENU) mutagenesis (
Brown
and Nolan, Hum Mol Genet 7, 1627, 1998). SHIRPA can be used to identify mutants with neuromuscular abnormalities, but the sensitivity of the protocol is unknown. We tested two
dystrophin
-deficient mutants Dmd(mdx) and Dmd(mdx3cv), both of which are indistinguishable from wild-type by a simple visual assessment, at different ages, using the primary screen of the SHIRPA protocol. The most dramatic observation was that both Dmd(mdx) and Dmd(mdx3cv) mice showed extreme fatigue after testing, while mice from the same C57BL strains appeared unaffected. Each strain of
dystrophin
-deficient mice showed a different profile in locomotor activity and deficiencies in the wire maneuver, righting reflex, and negative geotaxis tests. Furthermore, the wire maneuver test indicated an earlier onset of muscular impairment in Dmd(mdx) than Dmd(mdx3cv) mice. These data suggest that the SHIRPA primary screen is effective not only in identifying subtle neuromuscular mutants, but also in distinguishing qualitative differences between mutants with neuromuscular abnormalities.
...
PMID:Testing of SHIRPA, a mouse phenotypic assessment protocol, on Dmd(mdx) and Dmd(mdx3cv) dystrophin-deficient mice. 1096 29
This study tested the hypothesis that age-related changes in the
dystrophin
-glycoprotein complex (DGC) may precede age-associated alterations in muscle morphology and function. Compared to those in adult (6 month) rats, extensor digitorum longus (EDL) and soleus muscle mass was decreased in old (30 month) and very old (36 month) Fischer 344/NNiaHSD x
Brown
Norway/BiNia rats. The amount of
dystrophin
, beta-dystroglycan, and alpha-sarcoglycan increased with aging in the EDL and decreased with aging in the soleus. alpha-Dystroglycan levels were increased with aging in both muscles and displayed evidence of altered glycosylation. Immunostaining for the presence of antibody infiltration and
dystrophin
following increased muscle stretch suggested that the aging in the soleus was characterized by diminished membrane integrity. Together, these data suggest that aging is associated with alterations in EDL and soleus DGC protein content and localization. These results may implicate the DGC as playing a role in age-associated skeletal muscle remodeling.
...
PMID:Age-related dystrophin-glycoprotein complex structure and function in the rat extensor digitorum longus and soleus muscle. 1716 52
Plakins are large multi-domain molecules that have various functions to link cytoskeletal elements together and to connect them to junctional complexes. Plakins were first identified in epithelial cells where they were found to connect the intermediate filaments to desmosomes and hemidesmosomes [Ruhrberg, C., and Watt, F.M. (1997). The plakin family: versatile organizers of cytoskeletal architecture. Curr Opin Genet Dev 7, 392-397.]. They were subsequently found to be important for the integrity of muscle cells. Most recently, they have been found in the nervous system, where their functions appear to be more complex, including cross-linking of microtubules (MTs) and actin filaments [Leung, C.L., Zheng, M., Prater, S.M., and Liem, R.K. (2001). The BPAG1 locus: Alternative splicing produces multiple isoforms with distinct cytoskeletal linker domains, including predominant isoforms in neurons and muscles. J Cell Biol 154, 691-697., Leung, C.L., Sun, D., Zheng, M., Knowles, D.R., and Liem, R.K. (1999). Microtubule actin cross-linking factor (MACF): a hybrid of dystonin and
dystrophin
that can interact with the actin and microtubule cytoskeletons. J Cell Biol 147, 1275-1286.]. These plakins have also indicated their relationship to the spectrin superfamily of proteins and the plakins appear to be evolutionarily related to the spectrins, but have diverged to perform different specialized functions. In invertebrates, a single plakin is present in both Drosophila melanogaster and Caenorhabditis elegans, which resemble the more complex plakins found in mammals [Roper, K., Gregory, S.L., and
Brown
, N.H. (2002). The 'spectraplakins': cytoskeletal giants with characteristics of both spectrin and plakin families. J Cell Sci 115, 4215-4225.]. In contrast, there are seven plakins found in mammals and most of them have alternatively spliced forms leading to a very complex group of proteins with potential tissue specific functions [Jefferson, J.J., Leung, C.L., and Liem, R.K. (2004). Plakins: goliaths that link cell junctions and the cytoskeleton. Nat Rev Mol Cell Biol 5, 542-553.]. In this review, we will first describe the plakins, desmoplakin, plectin, envoplakin and periplakin and then describe two other mammalian plakins, Bullous pemphigoid antigen 1 (BPAG1) and microtubule actin cross-linking factor 1 (MACF1), that are expressed in multiple isoforms in different tissues. We will also describe the relationship of these two proteins to the invertebrate plakins, shortstop (shot) in Drosophila and VAB-10 in C. elegans. Finally, we will describe an unusual mammalian plakin, called epiplakin.
...
PMID:Plakins in development and disease. 1749 43
Despite advances in treatment, age-related cardiac dysfunction still remains a leading cause of cardiovascular death. Recent data have suggested that increases in cardiomyocyte apoptosis may be involved in the pathological remodeling of heart. Here, we examine the effects of aging on cardiomyocyte apoptosis in 6-, 30-, and 36-month-old Fischer344 x
Brown
Norway F1 hybrid rats (F344XBN). Compared with 6-month hearts, aged hearts exhibited increased TdT-mediated dUTP nick end labeling-positive nuclei, caspase-3 activation, caspase-dependent cleavage of alpha-fodrin and diminished phosphorylation of protein kinase B/Akt (Thr 308). These age-dependent increases in cardiomyocyte apoptosis were associated with alterations in the composition of the cardiac
dystrophin
glycoprotein complex and elevated cytoplasmic IgG and albumin immunoreactivity. Immunohistochemical analysis confirmed these data and demonstrated qualitative differences in localization of
dystrophin
-glycoprotein complex (DGC) molecules with aging. Taken together, these data suggest that aging-related increases in cardiac apoptotic activity model may be due, at least in part, to age-associated changes in DGC structure.
...
PMID:Possible molecular mechanisms underlying age-related cardiomyocyte apoptosis in the F344XBN rat heart. 2005 83
Brown
adipose tissues (BAT) are derived from a myogenic factor 5 (Myf5)-expressing cell lineage and white adipose tissues (WAT) predominantly arise from non-Myf5 lineages, although a subpopulation of adipocytes in some WAT depots can be derived from the Myf5 lineage. However, the functional implication of the Myf5- and non-Myf5-lineage cells in WAT is unclear. We found that the Myf5-lineage constitution in subcutaneous WAT depots is negatively correlated to the expression of classical BAT and newly defined beige/brite adipocyte-specific genes. Consistently, fluorescent-activated cell sorting (FACS)-purified Myf5-lineage adipo-progenitors give rise to adipocytes expressing lower levels of BAT-specific Ucp1, Prdm16, Cidea, and Ppargc1a genes and beige adipocyte-specific CD137, Tmem26, and Tbx1 genes compared with the non-Myf5-lineage adipocytes from the same depots. Ablation of the Myf5-lineage progenitors in WAT stromal vascular cell (SVC) cultures leads to increased expression of BAT and beige cell signature genes. Strikingly, the Myf5-lineage cells in WAT are heterogeneous and contain distinct adipogenic [stem cell antigen 1(Sca1)-positive] and myogenic (Sca1-negative) progenitors. The latter differentiate robustly into myofibers in vitro and in vivo, and they restore
dystrophin
expression after transplantation into mdx mouse, a model for Duchenne muscular dystrophy. These results demonstrate the heterogeneity and functional differences of the Myf5- and non-Myf5-lineage cells in the white adipose tissue.
...
PMID:Distinct populations of adipogenic and myogenic Myf5-lineage progenitors in white adipose tissues. 2374 Sep 68
