Gene/Protein
Disease
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Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P21817 (
RyR1
)
1,154
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Excitation-contraction uncoupling has been identified as a mechanism underlying skeletal muscle weakness in aging mammals (sarcopenia). The basic mechanism for excitation-contraction uncoupling is a larger number of ryanodine receptors (
RyR1
) uncoupled to dihydropyridine receptors (DHPRs) (Delbono, O., O'Rourke, K. S., and Ettinger, W. H. (1995) J. Membr. Biol. 148, 211-222). In the present study, we used transgenic mice overexpressing human
insulin-like growth factor
-1 exclusively in skeletal muscle to test the hypothesis that a high concentration of IGF-1 prevents age-related decreases in DHPR number and in muscle force. Transgenic mice express 10-20-fold higher IGF-1 concentrations than nontransgenic mice at all ages (1-24 months). The number of DHPRs is 50-100% higher, and the DHPR/
RyR1
ratio is 40% higher in transgenic soleus (predominantly type I fiber muscles), extensor digitorum longus (predominantly type II fiber muscles), and the pool of type I and type II fiber muscles than in nontransgenic young (6 months), adult (12 months), and old (24 months) mice. Furthermore, no age-related changes in DHPRs and the DHPR/
RyR1
ratio were observed in transgenic muscles. The specific single twitch and tetanic muscle force in old transgenic soleus and extensor digitorum longus muscles are 50% higher than in old nontransgenic muscles. Taken together, these results support the concept that IGF-1- dependent prevention of age-related decline in DHPR expression is associated with stronger muscle contraction in older transgenic mice.
...
PMID:Overexpression of IGF-1 exclusively in skeletal muscle prevents age-related decline in the number of dihydropyridine receptors. 978 85
Excitation-contraction (EC) uncoupling is a primary muscle alteration and constitutes a major cause of decline in skeletal muscle force with aging. The structural substratum for EC uncoupling in muscles from aging mammals is a reduction in number of dihydropyridine receptors (DHPR) at the T-tubule and SR membrane leading to an increase in the percent of sarcoplasmic reticulum calcium release channels or ryanodine receptors (
RyR1
) uncoupled to DHPR. The main functional consequence of this alteration is a failure in the transduction of sarcolemmal depolarization into a calcium signal and a mechanical response. This review summarizes recent studies from our laboratory aimed at elucidating the modulation of EC coupling by
insulin-like growth factor
-1 (IGF-1) in skeletal muscle. We demonstrated that transgenic overexpression of human IGF-1 exclusively in skeletal muscle increases the number and prevents age-related decline in the number of DHPR. IGF-1 enhances rat skeletal muscle DHPR function and gene expression. The functional significance of these findings is that IGF-1 prevents the age-related decline in muscle force.
...
PMID:Regulation of excitation contraction coupling by insulin-like growth factor-1 in aging skeletal muscle. 1093 3
The NFkappaBs regulate an array of physiological and pathological processes, including propagation of mitochondrial respiratory stress signaling in mammalian cells. We showed previously that mitochondrial stress activates NFkappaB using a novel calcineurin-requiring pathway that is different from canonical or non-canonical pathways. This study shows that IkappaBbeta is essential for the propagation of mitochondrial stress signaling. Knock down of IkappaBbeta, but not IkappaBalpha, mRNA reduced the mitochondrial stress-mediated activation and nuclear translocation of cRel:p50, inhibiting expression of nuclear target genes
RyR1
and cathepsin L. IkappaBbeta mRNA knock down also reduced resistance to staurosporine-induced apoptosis and decreased in vitro invasiveness. Induced receptor switching to
insulin-like growth factor
-1 receptor and increased glucose uptake are hallmarks of mitochondrial stress. IkappaBbeta mRNA knock down selectively abrogated the receptor switch and altered tubulin cytoskeletal organization. These results show that mitochondrial stress signaling uses an IkappaBbeta-initiated NFkappaB pathway that is distinct from the other known NFkappaB pathways. Furthermore, our results demonstrate the distinctive physiological roles of the two inhibitory proteins IkappaBbeta and IkappaBalpha.
...
PMID:A distinctive physiological role for IkappaBbeta in the propagation of mitochondrial respiratory stress signaling. 1827 19
In the swine breeding industry, two economical traits are of particular importance in sires, namely, muscle growth and average daily gain (ADG). These traits are quantitative, which implies that they are under the control of multiple genes. Mutations in these genes, associated with either muscularity or growth, are useful quantitative trait nucleotides (QTN) for unraveling genetic variation of these traits and can be used in marker-assisted selection. Until now, QTN involved in muscle growth and/or ADG in pigs were identified in porcine
ryanodine receptor 1
(
RYR1
),
insulin-like growth factor
-2 (IGF-2), and melanocortin-4 receptor (MC4R). Recently, a fourth possible QTN was found in porcine myostatin (MSTN). All four QTN have an influence on muscle growth and/or somatic growth, so an influence of one mutation on one or more of the other mutations should not be excluded. However, although the polymorphisms in the
RYR1
and the MC4R gene affect the function of the respective protein, the polymorphisms of the IGF-2 and MSTN gene influence the mRNA expression of the respective gene. Therefore, this study investigated possible interactions between the genotypes of MSTN, IGF-2, and MC4R (population 1) or the
RYR1
, IGF-2, and MSTN QTN (population 2) on IGF-2 and MSTN expression in different muscle types in pigs. In both skeletal muscle and heart muscle growth, the IGF-2:MSTN ratio seems to play an important role. Also, the
RYR1
genotype had a significant effect on IGF-2 expression in m. longissimus dorsi. No effect of the MC4R QTN could be seen.
...
PMID:Interactions between genes involved in growth and muscularity in pigs: IGF-2, myostatin, ryanodine receptor 1, and melanocortin-4 receptor. 1967 65
