izpis_h1_title_alt

Računsko in eksperimentalno preučevanje modulacije senescentnih celic
ID Prašnikar, Eva (Author), ID Borišek, Jure (Mentor) More about this mentor... This link opens in a new window, ID Perdih, Andrej (Comentor)

.pdfPDF - Presentation file, Download (9,70 MB)
MD5: E8EB042442B60DF22DDF0A31EB92991B

Abstract
Staranje je poglavitni dejavnik tveganja za razvoj številnih, s starostjo povezanih bolezni, kot so demenca, hipertenzija, ateroskleroza, rak, avtoimunske in druge bolezni. Mnoge raziskave dokazujejo, da staranje ni programiran proces in da bi nanj, posledično tudi na s starostjo povezane bolezni, lahko vplivali z zunanjimi terapevtskimi pristopi. Eden takšnih je modulacija ali odstranjevanje senescentnih celic, ki se kot odziv na različne stresorje ustavijo v fazi G1 ali G2 celičnega cikla, izrazijo svoj specifični fenotip ter se s starostjo začnejo kopičiti v organizmu. Področje celične senescence je dokaj novo področje raziskav, zato ostajajo odprta še številna vprašanja, tako glede mehanizma nastanka kot razlogov za kopičenje senescentnih celic v poznejših letih. Navkljub tem izzivom že poteka intenziven razvoj spojin s terapevtskim učinkom prek delovanja na senescenco, t. i. senoterapevtikov, saj je povečana količina teh celic povezana z razvojem s starostjo povezanih bolezni. Spojine delimo v dve glavni skupini: na senomorfike, s katerimi moduliramo nekatere procese v senescentnih celicah, najpogosteje s senescenco povezan sekretorni fenotip (SASP), ter senolitike, ki senescentne celice odstranijo iz organizma prek izzvane apoptoze. Nekatere od razvitih spojin so že vstopile v klinične faze raziskav. V prvem delu disertacije smo s pomočjo molekulskih simulacij podrobneje preučili enega od mehanizmov, ki vključuje komponente imunskega sistema in je potencialno odgovoren za kopičenje senescentnih celic, povezanih s starostjo. Namreč zaradi povečane prisotnosti inhibitornega kompleksa HLA-E/ß2m/nonapeptid/NKG2A/CD94, ki se tvori med senescentnimi in naravnimi celicami ubijalkami ali celicami CD8+, so te bolj zaščitene pred citotoksičnim delovanjem slednjih. Za celostno obravnavo prepoznave liganda z receptorji imunskih celic smo v raziskavo vključili še komplekse, ki vsebujejo aktivacijski receptor NKG2C/CD49, ki je prav tako prisoten na omenjenih celicah imunskega sistema. Za inhibitorni imunski kompleks smo zgradili model na ravni atomov, opredelili ključne interakcije za prenos signala ter tako postavili izhodišča za racionalno načrtovanje biokemičnih in strukturnih študij kot tudi usmerjeno načrtovanje intervencij za modulacijo zaviralnega učinka na naravne celice ubijalke in celice CD8+. Podobno smo pri modelu na ravni atomov aktivacijskega imunskega kompleksa opredelili ključne interakcije za prenos signala in postavili izhodišča za ciljno načrtovanje nadaljnjih eksperimentov. S pomočjo simulacij smo preučevali še vpliv mutacij nonapeptida na njegovo vezavo na HLA-E in na prenos signala prek inhibitornega receptorja. Tako smo podali smernice za načrtovanje peptidov, peptidomimetikov in malih molekul, ki bi lahko preprečile inhibicijo citotoksičnega učinka imunskih celic. V drugem delu raziskav smo izvedli virtualno rešetanje z uporabo kriterija strukturne podobnosti z izbranimi znanimi senolitiki, da bi identificirali nove spojine s senolitičnimi lastnostmi. Dodatno smo v testiranje vključili tudi nekaj molekul, izbranih glede na podatke iz literature. Senolitični potencial izbranih spojin zadetkov smo testirali na senescentnih fibroblastih, obenem pa v ta namen predhodno razvili in validirali presejalni test za iskanje potencialnih senolitikov. Pridobljena nova spoznanja na področju temeljnega razumevanja regulacije in modulacije količine senescentnih celic prek komponent imunskega sistema ter ovrednotenje nove molekule s senolitičnim učinkom prinašajo nove informacije za ovrednotenje celične senescence kot potencialne nove tarče za zdravljenje s starostjo povezanih bolezni.

Language:Slovenian
Keywords:Senescentne celice, imunski sistem, NKG2A/CD94, NKG2C/CD94, senolitiki
Work type:Doctoral dissertation
Organization:MF - Faculty of Medicine
Year:2023
PID:20.500.12556/RUL-144287 This link opens in a new window
Publication date in RUL:11.02.2023
Views:1350
Downloads:65
Metadata:XML DC-XML DC-RDF
:
Copy citation
Share:Bookmark and Share

Secondary language

Language:English
Title:Computational and experimental investigation of senescent cell modulation
Abstract:
Aging is the main risk factor for the development of many age-related diseases such as dementia, hypertension, atherosclerosis, cancer, autoimmune and other diseases. Numerous studies show that aging is not a programmed process and that it - along with age-related diseases - can be influenced by external therapeutic approaches. One of these is the modulation or elimination of senescent cells, a type of cells which in response to various stressors stop in the G1 or G2 phase of the cell cycle, express their specific phenotype, and begin to accumulate in the organism as it ages. The field of cellular senescence is a young area of research, so there are many open and unanswered questions regarding the mechanisms of its development as well as the reasons for the accumulation of senescence cells at later ages. Despite these challenges, intensive work is already underway to develop compounds that would show a therapeutic effect through their action on senescence as an increased amount of these cells is directly related to the development of age related diseases. They are divided into two groups: senomorphics, which modulate specific processes in senescent cells, most commonly the senescence-associated secretory phenotype (SASP), and senolytics, which remove senescent cells from the organism by inducing apoptosis. Some of the compounds developed have already entered the clinical phases of research. In the first part of the dissertation, we used molecular simulations to investigate one of the possible mechanisms responsible for the accumulation of senescent cells, which include components of the immune system. Namely, due to the increased presence of the immune inhibitor complex HLA E/β2m/nonapeptide/NKG2A/CD94 formed between the senescent and natural killer cells or CD8+ cells, senescent cells evade the cytotoxic action of the latter. For a comprehensive treatment of ligand recognition by immune cell receptors, we have also investigated systems contains the activating receptor NKG2C/CD94, which is also present on the mentioned cells of the immune system. For the inhibitory immune complex, we created an atomistic model and identified key interactions for signal transduction. This has provided us with a starting point for the rational design of biochemical and structural studies, as well as for the targeted design of interventions to modulate the inhibitory effect on natural killer cells and CD8+ cells. Similarly, we identified key interactions for signal transduction at the atomic level in the activating immune complex model, providing a starting point for the targeted design of further experiments. Using simulations, we also investigated the effect of mutations of nonapeptides on their binding to HLA E and the transduction of an inhibitory signal, providing guidelines for the design of peptides, peptidomimetics, and small molecules that could prevent the inhibition of the cytotoxic effect of immune cells with the inhibitory receptor NKG2A/CD94. In the second part of dissertation, we performed a virtual screening using the criterion of structural similarity with selected known senolytics to identify new compounds with senolytic properties. In addition, we also included in the evaluation some molecules selected based on the available data from the literature. The senolytic potential of the selected hit compounds was tested on senescent fibroblasts. For this purpose, a screening assay for finding potential senolytics was developed and validated. The new acquired knowledge contributed to the fundamental understanding of the regulation and modulation of the number of senescent cells by the components of the immune system, while the discovery of a new molecule with senolytic property provided a new chemical tool useful for the evaluation of cellular senescence as a potential new target for the treatment of age-related diseases.

Keywords:Senescent cells, immune system, NKG2A/CD94, NKG2C/CD94, senolytics

Similar documents

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

Back