Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C1762617 (
weakness
)
37,932
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lockwood argues that contradiction between the core institutional order and the material substructure of a society gives rise to potential social relationships which constitute a threat to the existing institutional order and may lead to change in the type of the society.
Parkin
, in particular, has advocated the application of the idea to the study of socialist societies. However, the situation of socialist China opposes Lockwood's view in that the new social relationships arising from the changing economic system do not pose a threat to the existing political system. Moreover, Lockwood underdevelops the connection between human action and social structure and does not theorize the mechanism linking system
weakness
and social change. This article formulates an alternative perspective by building on Giddens's structuration theory and Mouzelis's work on sociological theory. The theoretical framework is applied to China to give a flavour of how social change can be studied.
...
PMID:Towards an analytical theory of social change: the case of China. 1693 98
Aging is associated with a decline in muscle force that exceeds loss of muscle mass, suggesting that factors other than sarcopenia affect age-related muscle
weakness
. Here, we investigate in situ muscle force and sarcoplasmic reticulum (SR) properties in gastrocnemius muscles of adult (6-8 months) and aged (24 months) rats. Despite minimal loss of muscle mass, peak tetanic force was significantly reduced (-28%) in aged muscles. Adjusting for differences in muscle cross-sectional area mitigated the age difference (-23%), but it remained significant. The SR calcium release function was also impaired (-17%) with aging, although calcium uptake was not, and SR-associated glycogen increased (+30%) with aging. Western blotting revealed age related increases in Grp78, serinepalmitoyltransferase and neutral sphingomyelinase, suggesting that age increased the stress response and ceramide metabolism in the SR. In contrast
Parkin
, a protein associated with autophagic signaling, was reduced in the aged SR. These findings are consistent with a hypothesis that age-related impairments of the SR, possibly due to impaired autophagy and/or altered membrane metabolism, contribute to age-related muscle
weakness
, independent of changes in muscle mass.
...
PMID:Weakness, SR function and stress in gastrocnemius muscles of aged male rats. 2431 40
Parkinson's disease is a neurodegenerative disease characterized by tremors, muscle stiffness, and muscle
weakness
. Molecular genetic analysis has confirmed that mutations in PARKIN and PINK1 genes, which play major roles in mitochondrial quality control and mitophagy, are frequently associated with Parkinson's disease. PARKIN is an E3 ubiquitin ligase that translocates to mitochondria during loss of mitochondrial membrane potential to increase mitophagy. Although muscle dysfunction is noted in Parkinson's disease, little is known about the involvement of PARKIN in the muscle phenotype of Parkinson's disease. In this study, we report that the mitochondrial uncoupler CCCP promotes PINK1/PARKIN-mediated mitophagy in myogenic C2C12 cells. As a result of this excess mitophagy, we show that CCCP treatment of myotubes leads to the development of myotube atrophy in vitro. Surprisingly, we also found that siRNA-mediated knockdown of
Parkin
results in impaired mitochondrial turnover. In addition, knockdown of
Parkin
led to myotubular atrophy in vitro. Consistent with these in vitro results,
Parkin
knockout muscles showed impaired mitochondrial function and smaller myofiber area, suggesting that
Parkin
function is required for post-natal skeletal muscle growth and development.
...
PMID:Loss of Parkin impairs mitochondrial function and leads to muscle atrophy. 2956 60
The objective of this study was to interrogate the link between mitochondrial dysfunction and mitochondrial-specific autophagy in skeletal muscle. C57BL/6J mice were used to establish a time course of mitochondrial function and autophagy induction after fatigue (
n
= 12), eccentric contraction-induced injury (
n
= 20), or traumatic freeze injury (FI,
n
= 28); only FI resulted in a combination of mitochondrial dysfunction, i.e., decreased mitochondrial respiration, and autophagy induction. Moving forward, we tested the hypothesis that mitochondrial-specific autophagy is important for the timely recovery of mitochondrial function after FI. Following FI, there is a significant increase in several mitochondrial-specific autophagy-related protein contents including dynamin-related protein 1 (Drp1), BCL1 interacting protein (BNIP3), Pink1, and
Parkin
(~2-fold,
P
< 0.02). Also, mitochondrial-enriched fractions from FI muscles showed microtubule-associated protein light chain B1 (LC3)II colocalization suggesting autophagosome assembly around the damaged mitochondrial. Unc-51 like autophagy activating kinase (Ulk1) is considered necessary for mitochondrial-specific autophagy and herein we utilized a mouse model with Ulk1 deficiency in adult skeletal muscle (
myogenin-Cre
). While Ulk1 knockouts had contractile
weakness
compared with littermate controls (-27%,
P
< 0.02), the recovery of mitochondrial function was not different, and this may be due in part to a partial rescue of Ulk1 protein content within the regenerating muscle tissue of knockouts from differentiated satellite cells in which Ulk1 was not genetically altered via
myogenin-Cre
. Lastly, autophagy flux was significantly less in injured versus uninjured muscles (-26%,
P
< 0.02) despite the increase in autophagy-related protein content. This suggests autophagy flux is not upregulated to match increases in autophagy machinery after injury and represents a potential bottleneck in the clearance of damaged mitochondria by autophagy.
...
PMID:Mitochondrial-specific autophagy linked to mitochondrial dysfunction following traumatic freeze injury in mice. 3172 14
Sepsis elicits skeletal muscle
weakness
and fiber atrophy. The accumulation of injured mitochondria and depressed mitochondrial functions are considered as important triggers of sepsis-induced muscle atrophy. It is unclear whether mitochondrial dysfunctions in septic muscles are due to the inadequate activation of quality control processes. We hypothesized that overexpressing
Parkin
, a protein responsible for the recycling of dysfunctional mitochondria by the autophagy pathway (mitophagy), would confer protection against sepsis-induced muscle atrophy by improving mitochondrial quality and content.
Parkin
was overexpressed for four weeks in the limb muscles of four-week old mice using intramuscular injections of adeno-associated viruses (AAVs). The cecal ligation and perforation (CLP) procedure was used to induce sepsis. Sham operated animals were used as controls. All animals were studied for 48 h post CLP. Sepsis resulted in major body weight loss and myofiber atrophy.
Parkin
overexpression prevented myofiber atrophy in CLP mice. Quantitative two-dimensional transmission electron microscopy revealed that sepsis is associated with the accumulation of enlarged and complex mitochondria, an effect which was attenuated by
Parkin
overexpression.
Parkin
overexpression also prevented a sepsis-induced decrease in the content of mitochondrial subunits of NADH dehydrogenase and cytochrome C oxidase. We conclude that
Parkin
overexpression prevents sepsis-induced skeletal muscle atrophy, likely by improving mitochondrial quality and contents.
...
PMID:Parkin Overexpression Attenuates Sepsis-Induced Muscle Wasting. 3254 83
