Razvoj metode za detekcijo aktivnosti in zaviranja butiril-esteraze na možganskih rezinah : enoviti magistrski študij Farmacija

Jelenko, Aljoša

Razvoj metode za detekcijo aktivnosti in zaviranja butiril-esteraze na možganskih rezinah : enoviti magistrski študij Farmacija
ID Jelenko, Aljoša (Author), ID Gobec, Stanislav (Mentor) More about this mentor... This link opens in a new window

, ID Brus, Boris (Co-mentor)

PDF - Presentation file, Download (2,79 MB)
MD5: 776FD25000C9537B9187BB9272B944DE

Abstract

Alzheimerjeva bolezen je kronična progresivna nevrodegenerativna bolezen, pri kateri so v ospredju znaki demence in za katero v Evropi trpi približno 7,3 milijona ljudi. Holinergična hipoteza predstavlja prvi poskus razlage patogeneze bolezni in je vodila do razvoja zaviralcev acetilholin-esteraze. Vloga holinesteraz pri patogenezi Alzheimerjeve bolezni je vodila do intenzivnih raziskav funkcij holinesteraz v centralnem živčnem sistemu. Kljub vsem raziskavam pa nekatera ključna vprašanja o vlogi holin-esteraz ostajajo nejasna. Eden od še vedno nepojasnjenih fenomenov je tudi ta, da pri sesalcih poleg acetilholin-esteraze, najdemo še soroden encim butirilholin-esterazo. Aktivnost butirilholin-esteraze se lahko pri napredovali bolezni poveča od 1,2 pa tudi do 11-krat, kar nakazuje, da v možganih bolnikov z Alzheimerjevo boleznijo, postopno prevzame vlogo acetilholin-esteraze pri hidrolizi acetilholina. Selektivni zaviralci butirilholin-esteraze, bi tako lahko bili klinično uporabni za izboljšanje holinergične aktivnosti, katere upad je pri napredovali bolezni, najverjetneje tudi posledica povišane aktivnosti butirilholin-esteraze. Uspešno smo optimizirali Koelle-jevo metodo za prikaz aktivnosti holin-esteraz na podganjih možganskih rezinah, tako da smo zmanjšali čas inkubacije in količino porabljenih reagentov predvidenih po originalnem protokolu. Modificirana metoda se je izkazala za uporabno pri kvalitativnem spremljanju učinkovitosti zaviralcev holin-esteraz. Z modificirano metodo smo najprej določili področja v možganih, kjer je aktivnost butirilholin-esteraze najvišja in nato na teh področjih ovrednotili zaviralni učinek novega selektivnega zaviralca tega encima. Poskušali smo tudi razviti novo metodo za detekcijo butirilholin-esteraze na možganskih rezinah s pomočjo fluorescenčno označenega analoga novega zaviralca, ki bi omogočala hiter in enostaven prikaz porazdelitve butirilholin-esteraze na možganskih rezinah in hkrati tudi potrdila sposobnost vezave zaviralca v aktivno mesto encima na možganskih rezinah, torej v okolju, ki je kompleksnejše kot testni sistem in vitro in predstavlja pomemben korak za napredovanje spojin v poskuse in vivo. Razvoj metode je ovirala predvsem prevelika lipofilnost fluorescenčnega analoga in njegova nespecifična vezava po celotni rezini, pa tudi močna avtofluorescenca lipofuscina. Kljub temu, da nam metode ni uspelo razviti, smo uspešno dokazali afiniteto analoga do encima, potrdili zaznavo fluorescenčnega signala vezanega analoga in tako postavili temelje in osvetlili probleme za nadaljnje eksperimente pri razvoju te metode.

Language:	Slovenian
Keywords:	butirilholin-esteraza Koelle-jeva metoda zaviralec butirilholin-esteraze fluorescenčna detekcija holinergični sistem
Work type:	Master's thesis/paper
Typology:	2.09 - Master's Thesis
Organization:	FFA - Faculty of Pharmacy
Place of publishing:	Ljubljana
Publisher:	[A. Jelenko]
Year:	2015
Number of pages:	66 f.
PID:	20.500.12556/RUL-121047
UDC:	615.2:616.894(043.3)
COBISS.SI-ID:	3953777
Publication date in RUL:	29.09.2020
Views:	654
Downloads:	80
Metadata:
:	Copy citation
Share:

Secondary language

Abstract:
Language:	English
Title:	Development of method for detecting the activity and inhibition of butyrylcholinesterase on brain slices : Uniform master's programme Pharmacy
Alzheimer's disease is a chronic progressive neurodegenerative disease with symptoms of dementia and from which in Europe suffer approximately 7.3 million people. Cholinergic hypothesis represents the first attempt to interpret the pathogenesis of Alzheimer’s disease and has led to the development of acetylcholinesterase inhibitors. The role of cholinesterases in the pathogenesis of Alzheimer's disease has led to intensive research of functions of cholinesterases in the central nervous system. Despite all the research, however, some key questions about the role of cholinesterases remain unclear. One of the still unexplained phenomena is also that in mammals besides acetylcholine esterase, also related enzyme butyrylcholinesterase can be found. Activity of butyrylcholnesterase may increases from 1.2 to up to 11-fold in sever Alzheimer’s disease, which suggests that in the brains of patients with Alzheimer's disease butyrylcholinesterase gradually takes over the role of acetylcholinesterase in hydrolysis of acetylcholine. Selective inhibitors of butyrylcholinesterase can be clinically useful for the restoration of cholinergic activity, which decline in late stages of disease. In this research, we successfully optimized Koelle’s method for displaying the activity of cholinesterases on rat brain slices, by reducing the incubation time and the quantity of reagents used in relation to the original protocol. It has also been showen that the modified method is useful for qualitative evaluation of the potency of cholinesterase inhibitors. With the modified method, we have first determined areas of the brain with highest butyrylcholinesterase activity and then on those areas, we have evaluated the inhibitory potency of novel selective inhibitor of this enzyme. We also tried to develop a new method for detecting butyrylcholinesterase on brain slices by means of fluorescence-labeled analogue of the novel inhibitor, that would allow quick and easy display of butyrylcholinesterase on brain slices and would also confirmed the binding capacity of the inhibitor in the active site of enzyme on the brain slices - an environment that is more complex than a test system in vitro, and represent an important step for the advancement of the compounds in experiments in vivo. Method development was disabled mainly due to excessive lipophilicity of fluorescent analogue and its non-specific binding across all of the brain slice, as well as strong autofluorescence of lipofuscin. However we successfully proved affinity of analog to enzyme, confirmed the detection of fluorescent signal of bounded analog and thus laid the foundations and highlighted the problems for further experiments in the development of this method.
Keywords:	Alzheimer’s disease butyrylcholynesterase Koelle’s method butyrylcholinesterase inhibitor fluorescent detection

Similar works from RUL:
Similar works from other Slovenian collections:

Secondary language

Similar documents