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Vloga gama-enolaze v procesu diferenciacije celic SH-SY5Y v posamezen nevronski fenotip
ID Marin, Nika (Avtor), ID Pišlar, Anja (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček
Encim γ-enolaza je citoplazemski encim, ki sodeluje v procesu metabolične razgradnje glukoze, prav tako pa so za γ-enolazo, natančneje njen C-končni del, dokazali, da ob ustrezni vezavi na plazemsko membrano spodbuja preživetje, regeneracijo in diferenciacijo nevronov. V sklopu magistrske naloge smo z eksperimentalnim delom na celični liniji SH-SY5Y ugotavljali vlogo γ-enolaze v procesu diferenciacije celic v posamezen nevronski fenotip. V prvem delu naloge smo postavili celični model diferenciacije in vitro. Pokazali smo, da antibiotiki zavirajo proces diferenciacije, ki se kaže kot zmanjšana nevritogeneza, vendar lahko pri uporabi gojišča z 0,25 % koncentracijo antibiotika še zadostno vrednotimo diferenciacijo celične linije SH-SY5Y. Dokazali smo, da retinojska kislina (RA) samostojno oz. v kombinaciji z nevrotrofičnim dejavnikom možganskega izvora (BDNF) spodbudi izraščanje nevritov in polimerizacijo F-aktina, kar vpliva na reorganizacijo aktinskega citoskeleta, ki je eden prvi dogodkov v procesu rasti nevritov. Na drugi strani pa dodatek forbol 12-miristat 13-acetata (PMA) delno zavira z RA spodbujeno nevritogenezo celic in polimerizacijo aktina. Dejavniki diferenciacije prav tako vodijo v razvoj določenega nevronskega fenotipa, pri čemer smo dokazali, da tretiranje celic s kombinacijo RA in PMA poveča izražanje tirozinske hidroksilaze, torej vodi v razvoj dopaminergičnim nevronom podobnega fenotipa. Prav tako smo dokazali, da je pri celicah diferenciranih z RA, PMA in BDNF proliferacija delno zaustavljena, in sicer na račun spodbujene diferenciacije. V nadaljevanju smo dokazali, da je izražanje aktivne oblike γ-enolaze povečano pri tretiranju celic z RA samostojno ali v kombinaciji z BDNF. V zadnjem delu naloge smo dokazali, da peptid γ-Eno, ki posnema C-končni del encima in je odgovoren za nevrotrofično aktivnost, poveča izraščanje nevritov nediferenciranih celic SH-SY5Y, dodatek zaviralca aktivnosti tirozin-kinaznega receptorja Trk (K252a), pa to izraščanje delno zavre. Peptid γ-Eno prav tako poveča fosforilacijo serin/treonin kinaze (Akt) in z zunajceličnim signalom regulirane proteinske kinaze 1/2 (ERK1/2) v nediferenciranih celicah, s čimer torej spodbudi aktivacijo signalnih poti fosfoinozitid-3-kinaze (PI3K) in z mitogenom aktivirane proteinske kinaze (MAPK), ki sta v prisotnosti K252a zavrti. Nenazadnje smo dokazali, da peptid γ-Eno spodbudi nevritogenezo z RA samostojno ali v kombinaciji z BDNF diferenciranih celic. Rezultati magistrske naloge nakazujejo, da je encim γ-enolaza pomemben v procesu spodbujanja nevritogeneze in diferenciacije ter tako predstavlja pomembno tarčo pri načrtovanju učinkovin, ki bi spodbudile regeneracijo poškodovanih nevronov.

Jezik:Slovenski jezik
Ključne besede:nevrotrofični dejavnik, γ-enolaza, rast nevritov, diferenciacija, nevronski fenotip
Vrsta gradiva:Magistrsko delo/naloga
Organizacija:FFA - Fakulteta za farmacijo
Leto izida:2021
PID:20.500.12556/RUL-134140 Povezava se odpre v novem oknu
Datum objave v RUL:24.12.2021
Število ogledov:2325
Število prenosov:215
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Sekundarni jezik

Jezik:Angleški jezik
Naslov:Role of gamma-enolase in SH-SY5Y cell differentiation into individual neuronal phenotype
Izvleček:
The enzyme γ-enolase is a cytoplasmic enzyme involved in metabolic degradation of glucose. For its C-terminal part has also been shown to promote neuronal survival, regeneration and differentiation when properly bound to the plasma membrane. As part of the master's thesis we experimentally investigated role of γ-enolase in the process of differentiation of SH-SY5Y cell line into an individual neuronal phenotype. Firstly, we set up an in vitro cell differentiation model. We have shown that antibiotics inhibit the differentiation process, which manifests as reduced neuritogenesis, but with addition of 0.25 % concentration of antibiotics in the medium we can still sufficiently evelute differentiation of SH-SY5Y cell line. We proved that retinoic acid (RA) independently or in combination with brain-derived neurotrophic factor (BDNF) stimulates neurite outgrowth and F-actin polymerization, which affects reorganization of actin cytoskeleton, one of the first events in the process of neurite outgrowth. On the other hand, addition of phorbol 12-myristat 13-acetate (PMA) partially inhibits RA-induced cell neuritogenesis and actin polymerization. Differentiation factors also lead to development of a specific neuronal phenotype, and we have shown that treating cells with a combination of RA and PMA increases tyrosin hydroxylase expression, thus leading to the development of a dopaminergic neuron-like phenotype. We also showed that proliferation is partialy inhibited in cells treated with RA, PMA and BDNF, at the expanse of stimulated differentiation. We further demonstrated that expression of active form of γ-enolase is increased when cells are stimulated with RA alone or in combination with BDNF. In the last part of the thesis, we demonstrated that γ-Eno peptide, which mimics C-terminal part of the enzyme and is responsible for neurotrophic activity, increases neurite outgrowth of undifferentiated SH-SY5Y cells, while addition of kinase inhibitor Trk (K252a) partially inhibits this outgrowth. Peptide γ-Eno also increases phosphorylation of serine/threonine kinase (Akt) and extracellular signal-regulated protein kinase 1/2 (ERK1/2) in non-differentiated cells, thus stimulating activation of phosphatidilinositol-3-kinase (PI3K) and mitogen-activated protein kinase (MAPK) signaling pathways, which are inhibited in the presence of K252a. Finally, we have shown that γ-Eno peptide promotes neuritogenesis of RA alone or in combination with BDNF differentiated cells. The results of thesis suggest that γ-enolase is important in the process of promoting neuritogenesis and differentiation, and thus represents a potential target for designing agents to stimulate regeneration of damaged neurons.

Ključne besede:neurotrophic factor, γ-enolase, neurite outgrowth, differentiation, neuronal phenotype

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