| Avtor/Urednik | Bartolić, Andrej; Sever, Matjaž | |
| Naslov | Acetilholinesteraza v električno draženi denervirani mišici extensor digitorum longus podgane | |
| Prevedeni naslov | Acetylcholinesterase in electrically stimulated denervated muscle extensor digitorum longus of the rat | |
| Tip | članek | |
| Vir | Med Razgl | |
| Vol. in št. | Letnik 40, št. 1 | |
| Leto izdaje | 2001 | |
| Obseg | str. 23-44 | |
| Jezik | slo | |
| Abstrakt | Background. The basis for the function of the nervous system is signalling among the nerve cells through the synapses. Normal signalling requires precise synthesis and localisation of synaptic structures within the cell. There is a lot of work done in this field and the most often used model for the research is the neuromuscular junction because of its accessibility. The enzyme acetylcholinesterase (AChE) plays a crucial role in it by degrading acetylcholine and by that stopping the electrical signal among the nerve cells. The activity and localisation within the cell are very important for the proper function of the AChE. They depend on the expression of the AChE gene, which is further dependant on many factors and their inter-relationship. Among them, the most important are electromechanical activity and local neural mediators. Denervation of the muscle causes a lack of the factors mentioned above and consequently leads to atrophic changes of the muscle, decrease of the AChE activity in neuromuscular junction and the level of AChE mRNA in the muscle cells. Aim. and hypothesis. Our observations were based, on the measurement of the AChE activity and the level of AChE mRNA in the fast rat extensor digitorum longus (EDL) muscle. We used different stimulation patterns on the animal model. The results were then compared in order to test the next hypothesis. Change in the evel of AChE mRNA and the activity of AChE in the EDL muscle after denervation can be partially prevented by a specific simple pattern of electrical muscle stixnž ulation. (Abstract truncated at 2000 characters) | |
| Izvleček | Izhodišče. Temelj delovanja živčevja je sporočanje preko sinaps, zato so mehanizmi uravnavanja sinteze sinaptičnih struktur in njihovega usmerjanja na mesto delovanja predmet mnogih raziskav V teh se zaradi dostopnosti kot eksperimentalni model uporablja živčno-mišični stik, ki ga sestavlja med drugimi strukturami tudi encim acetilholinesteraza (AChE). Vloga AChE je ključna za živčno-mišični prenos, ki ga prekinja s tem, da v sinaptični špranji razgrajuje živčni prenašalec acetilholin. Pri tem pa igrata pomembno vlogo njena aktivnost in razporeditev, ki sta odvisni od ekspresije gena. Slednja je odvisna od različnih dejavnikov in njihovega medsebojnega vpliva, in to predvsem od elektromehanične aktivnosti in lokalno delujočih živčnih trofičnih dejavnikov. Denervacija mišice vodi zaradi odtegnitve omenjenih dejavnikov do značilnih atrofičnih sprememb mišice, zmanjšanja aktivnosti AChE v živčno-mišičnem stiku, kot tudi upada ravni AChE mRNA v celici. Namen in hipoteza. V poskusih smo preučevali vpliv električnega draženja na raven AChE mRNA in aktivnost AChE v denervirani hitri mišici extensor digitorum longus (EDL). Na živalskem modelu smo to mišico dražili z različnimi vzorci draženja, ki so značilni za hitre mišice. Primerjali smo ravni AChE mRNA in aktivnosti AChE v mišici pri različnih vzorcih draženja, da bi preverili naslednjo hipotezo. Izbrani enostavni vzorec električnega draženja mišice EDL lahko delno prepreči spremembe ravni AChE mRNA in aktivnosti AChE, ki nastanejo po denervaciji. (Izvleček skrajšan pri 2000 znakih) | |
| Deskriptorji | MUSCLE, SKELETAL MUSCLE DENERVATION ELECTRIC STIMULATION ACETYLCHOLINESTERASE RATS |