Author/Editor     Sketelj, J; Leisner, E; Gohlsch, B; Škorjanc, D; Pette, D
Title     Specific impulse patterns regulate acetylcholinesterase activity in skeletal muscles of rats and rabbits
Type     članek
Source     J Neurosci Res
Vol. and No.     Letnik 47, št. 1
Publication year     1997
Volume     str. 49-57
Language     eng
Abstract     In rats, acetylcholinesterase (AChE) activity in the fast muscles is several times higher than in the slow soleus muscle. The hypothesis that specific neural impulse patterns in fast or slow muscles are responsible for different AChE activities was tested by altering the neural activation pattern in the fast extensor digitorum longus (EDL) muscle by chronic low-frequency stimulation of its nerve. In addition, the soleus muscle was examined after hind limb immobilization, which changed its neural activation pattern from tonic to phasic. Myosin heavy-chain (MHC) isoforms were analyzed by gel electrophoresis. Activity of the molecular forms of AChE was determined by velocity sedimentation. Low-frequency stimulation of the rat EDL for 35 days shifted the profile of MHC II isoforms toward a slower MHCIIa isoform. Activity of the globular G1 and G4 molecular forms of AChE decreased by a factor of 4 and 10, respectively, and became comparable with those in the soleus muscle. After hind limb immobilization, the fast MHCIId isoform, which is not normally present, appeared in the soleus muscle. Activity of the globular G1 form of AChE increased approximately three times and approached the levels in the fast EDL muscle. In the rabbit, on the contrary to the rat, activity of the globular forms of AChE in a fast muscle increased after low-frequency stimulation. The results demonstrate that specific neural activation patterns regulate AChE activity in muscles. Great differences, however, exist among different mammalian species in regard to muscle AChE regulation.
Descriptors     ACETYLCHOLINESTERASE
MUSCLE, SKELETAL
ELECTRIC STIMULATION
HINDLIMB
IMMOBILIZATION
ISOENZYMES
MUSCLE FIBERS, FAST-TWITCH
MUSCLE FIBERS, SLOW-TWITCH
MYOSIN HEAVY CHAINS
RABBITS
RATS
RATS, WISTAR
SPECIES SPECIFICITY