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doctoral thesis
Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1
2024. urn:nbn:hr:193:969597
Vidatić, Lea
University of Rijeka
Faculty of Biotechnology and Drug Development

Cite this document

Vidatić, L. (2024). Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1 (Doctoral thesis). Rijeka: University of Rijeka. Retrieved from https://urn.nsk.hr/urn:nbn:hr:193:969597

Vidatić, Lea. "Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1." Doctoral thesis, University of Rijeka, 2024. https://urn.nsk.hr/urn:nbn:hr:193:969597

Vidatić, Lea. "Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1." Doctoral thesis, University of Rijeka, 2024. https://urn.nsk.hr/urn:nbn:hr:193:969597

Vidatić, L. (2024). 'Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1', Doctoral thesis, University of Rijeka, accessed 27 October 2024, https://urn.nsk.hr/urn:nbn:hr:193:969597

Vidatić L. Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1 [Doctoral thesis]. Rijeka: University of Rijeka; 2024 [cited 2024 October 27] Available at: https://urn.nsk.hr/urn:nbn:hr:193:969597

L. Vidatić, "Karakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1", Doctoral thesis, University of Rijeka, Rijeka, 2024. Available at: https://urn.nsk.hr/urn:nbn:hr:193:969597

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Metadata
TitleKarakterizacija neuropatoloških značajki novog mišjeg modela bolesti Niemann-Pick tipa C s deletiranim genom BACE1
Title (english)Characterisation of neuropathological features of a new Niemann-Pick type C disease murin model with genetically depleted BACE1
AuthorLea Vidatić
MentorSilva Katušić Hećimović (mentor)
Committee memberJelena Ban (predsjednik povjerenstva)
Committee memberŽeljka Minić (član povjerenstva)
Committee memberDubravka Švob Štrac (član povjerenstva)
GranterUniversity of Rijeka
(Faculty of Biotechnology and Drug Development)
Rijeka
Defense date and country2024-05-24, Croatia
Scientific / art field,
discipline and subdiscipline		BIOTECHNICAL SCIENCES
Biotechnology
Universal decimal classification
(UDC)		577 - Biochemistry. Molecular biology. Biophysics
Abstract
Bolest Niemann-Pick tipa C (NPC) je rijetka monogenska neurodegenerativna bolest i poremećaj nakupljanja lizosoma. Bolest NPC uzrokovana je mutacijom u genima NPC1 ili NPC2 koji kodiraju za prijenosnike kolesterola. Zbog nedostatka ili promijenjene funkcije proteina NPC1 ili NPC2, u kasnim endosomima i lizosomima dolazi do nakupljanja slobodnog kolesterola, što uzrokuje poremećaj funkcije endolizosomalnog puta, snažnu neuroinflamaciju (aktivaciju astrocita i mikroglija) i neurodegeneraciju prvenstveno Purkinjeovih neurona u malom mozgu. Klinički, bolest NPC karakterizira heterogeni fenotip koji uključuje brojne neurovisceralne poremećaje i ranu smrt. Unatoč etiološkoj razlici između bolesti NPC i kompleksne Alzheimerove bolesti (AB), ovi poremećaji dijele nekoliko patoloških značajki, poput promijenjenog metabolizma kolesterola, neurodegeneracije, neuroinflamacije te nakupljanja hiperfosforiliranog proteina tau i peptida amiloida-β u mozgu. Povećano stvaranje amiloida-β uslijed povećanog proteolitičkog cijepanja proteina APP enzimom BACE1 smatra se glavnim mehanizmom patogeneze AB. Zanimljivo, povećana proteolitička aktivnost enzima BACE1 zabilježena je i u bolesti NPC. S obzirom da je enzim BACE1 potencijalna farmakološka meta za liječenje AB, cilj ovog doktorskog rada bio je ispitati učinak genetičke modulacije razine enzima BACE1 na razinu i progresiju neuropatoloških značajki bolesti NPC. Za ovo istraživanje korišten je mišji model knock-in koji nosi najčešću mutaciju u ljudi, NPC1-I1061T, te je križan s modelom knock-out BACE1. Neuropatološke značajke (uključujući gubitak Purkinjeovih neurona, poremećaj funkcije endolizosomalnog puta, aktivaciju astrocita i mikroglija te hiperfosforilaciju proteina tau) ispitane su u malom mozgu, kori velikog mozga i hipokampusu metodama imunofluorescencije i Western blot. Delecija oba alela gena BACE1 u jedinki knock-in NPC1- I1061T (N-KI) uzrokovala je ranu smrt uz povećanu progresiju svih neuropatoloških značajki (izuzev odumiranja Purkinjeovih neurona) već u asimptomatskoj fazi bolesti. Delecijom jednog alela gena BACE1 u jedinki N-KI ublaženo je nakupljanje ranih endosoma i lizosoma, aktivacija astrocita te odumiranje Purkinjeovih neurona u simptomatskoj fazi bolesti. Međutim, u završnoj fazi bolesti, delecijom jednog alela gena BACE1 u jedinki N-KI povećana je aktivacija mikroglija te ubrzano odumiranje Purkinjeovih neurona, što je uzrokovalo raniju smrt u odnosu na jedinke N-KI koje sadrže divlji tip gena BACE1. Zaključno, genetičko smanjenje razine enzima BACE1 ima i povoljne i štetne učinke na neuropatološke značajke bolesti NPC u mišjem modelu knock-in NPC1-I1061T, čime je istaknuta važnost uloge enzima BACE1 i njegovih supstrata za funkciju mozga. Daljnja istraživanja trebala bi razjasniti koji supstrati enzima BACE1 te koji tipovi stanica doprinose patobiologiji bolesti NPC. Dobiveni rezultati doprinose boljem razumijevanju bolesti NPC, kao i terapijskog potencijala enzima BACE1 u liječenju bolesti NPC i drugih neurodegenerativnih poremećaja sličnog mehanizma nastanka
Abstract (english)
Niemann-Pick type C disease (NPC) is a rare monogenic neurodegenerative disease and lysosomal storage disorder. NPC is caused by mutation in NPC1 or NPC2 genes which code for cholesterol transporters. Upon lack or dysfunction of NPC1 or NPC2 proteins, free cholesterol accumulates in late endosomes and lysosomes causing disruption of the endolysosomal pathway, profound neuroinflammation (activation of astrocytes and microglia) and neurodegeneration of primarily Purkinje cells in the cerebellum. Clinically, NPC is characterized by heterogenous phenotype including numerous neurovisceral pathologies and early death. Despite etiological differences between NPC and complex Alzheimer’s disease (AD), these disorders share several pathological features, such as altered cholesterol metabolism, neurodegeneration, neuroinflammation and accumulation of hyperphosphorylated tau and amyloid-β peptides in the brain. Increased generation of amyloid-β due to increased BACE1-mediated proteolysis of APP is considered a potential mechanism of AD pathogenesis. Interestingly, increased BACE1-cleavage is observed in NPC as well. Since BACE1 is a potential pharmacological target against AD, the goal of this doctoral thesis was to analyse the effect of BACE1-genetic depletion on the levels and progression of neuropathological features of NPC. Therefore, we used a knock-in murine model carrying the most common human mutation, NPC1-I1061T, and crossed it with BACE1 knock-out mice. Neuropathological features (including Purkinje cell loss, endolysosomal dysfunction, activation of astrocytes and microglia, and hyperphosphorylation of tau) were analysed in the cerebellum, cortex and hippocampus using immunofluorescence and Western blot. Deletion of both BACE1 alleles in NPC1-I1061T knock-in (N-KI) mice caused early death with increased progression of all neuropathological features analysed (except Purkinje cell loss) already at the presymptomatic disease stage. Deletion of one BACE1 allele in N-KI mice attenuated early endosome and lysosome accumulation, astrocyte activation, and Purkinje cell loss at the symptomatic disease stage. However, at the terminal disease stage, deletion of one BACE1 allele in N-KI mice enhanced microglial activation and Purkinje cell loss, resulting in earlier death compared to N-KI mice containing wild-type BACE1 gene. In conclusion, BACE1-genetic depletion has both beneficial and detrimental effects on neuropathological features of NPC in NPC1-I1061T knock-in murine model, which highlights the importance of BACE1 and its substrates in brain function. Future studies should aim to determine which BACE1 substrates and which cell types contribute to NPC pathobiology. These findings contribute to a better understanding of NPC disease and the potential of BACE1-targeted therapies against NPC and other neurodegenerative disorders with similar underlying pathologies.
Keywords
Keywords (english)
Languagecroatian
URN:NBNurn:nbn:hr:193:969597
Promotion2024
Study programmeTitle: Medicinal chemistry
Study programme type: university
Study level: postgraduate
Academic / professional title: doktor/doktorica znanosti, interdisciplinarna područja znanosti, polje biotehnologija u biomedicini (doktor/doktorica znanosti, interdisciplinarna područja znanosti, polje biotehnologija u biomedicini)
Type of resourceText
File originBorn digital
Access conditionsOpen access
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Created on2024-06-14 09:22:02