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Epitopi poglavitnega alergena ose Ves v 5 in asimptomatska IgE senzibilizacija za pik ose
ID Debeljak, Jerneja (Author), ID Košnik, Mitja (Mentor) More about this mentor... This link opens in a new window, ID Korošec, Peter (Comentor)

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Abstract
UVOD: V doktorski nalogi smo identificirali epitope alergena Ves v 5, ki je poglavitni alergen strupa ose; kar pomeni, da je odgovoren za večino alergij, ki se pojavijo kot posledica osjega pika. Epitopi alergena igrajo ključno vlogo v procesu alergijske reakcije, saj predstavljajo mesto vezave protiteles IgE, kar posledično vodi do degranulacije efektorskih celic in pojava simptomov alergijske reakcije. Alergeni vsebujejo na svoji površini epitope in medtem ko za detekcijo protiteles IgE v serumu zadostuje že prisotnost monovalentne vezave protitelesa IgE in alergena, pa mora za degranulacijo efektorskih celic in posledično za pojav simptomov alergijske reakcije priti do prekrižanja vsaj dveh, na receptor vezanih protiteles IgE. Identifikacija in poznavanje epitopov alergena je tako ključnega pomena za razvoj novih diagnostičnih testov in novih načinov imunoterapije. Imunoterapija z uporabo epitopov se pojavlja kot potencialna alternativa trenutno uporabljeni imunoterapiji, saj imajo sintetični peptidi določene prednosti pred uporabo celotnih alergenskih ekstraktov, kot so na primer pridobivanje pod standardiziranimi pogoji, enostavna izolacija in stabilnost v liofilizirani obliki. Identifikacija epitopov je, zaradi napredka tehnologije sekvenciranja naslednje generacije (NGS) in razvoja novih bioinformatskih orodij za analizo podatkov bakteriofagnih predstavitvenih knjižnic ter interakcij protein-peptid, doživela velik napredek in omogočila pridobitev zanesljivejših rezultatov. METODE: Za identifikacijo B-celičnih epitopov smo se poslužili tehnologije bakteriofagnega prikaza, kjer smo uporabili tri bakteriofagne knjižnice s peptidi, dolgimi 7 oziroma 12 aminokislin. Selekciji peptidov, ki vežejo poliklonska protitelesa anti-Ves v 5 IgG, je sledilo sekvenciranje NGS in bioinformatska analiza pridobljenih podatkov (z uporabo orodij PuLSE, R, SAROTUP, MEME, Hammock in WebLogo). Rezultate smo primerjali z že identificiranimi epitopom-podobnimi peptidi, objavljenimi v spletni bazi IEDB. Za vizualizacijo epitopskih regij na alergenu smo uporabili orodji Pepitope in Pymol. Z uporabo peptidne mikromreže smo ovrednotili vezavo protiteles IgE iz 36-ih serumov za pik ose simptomatskih in 36-ih serumov za pik ose asimptomatskih posameznikov na izbrane epitopom-podobne peptide z namenom analizirati, ali protitelesa različnih skupin posameznikov vežejo druge epitope. Uporabili smo tako linearno kot ciklično obliko epitopom-podobnih peptidov. REZULTATI: V prvem delu smo identificirali epitopom-podobne peptide in posledično poglavitne epitopske regije alergena. Poglavitni aminokislinski motivi identificiranih treh epitopskih regij so sestavljeni iz aminokislin TKQE, GKI oziroma KPN. V spletni bazi že identificiranih epitopov smo našli 42 objav za alergen Ves v 5, ki pa se nanašajo na T-celične epitope. Medtem ko se motiva TKQ(E) in KPN v omenjenih objavah večkrat pojavita, objave za motiv GKI zaenkrat še ni zaslediti. Z analizo peptidnih mikromrež smo ugotovili, da se protitelesa v 7/12 primerov signifikantno bolje vežejo na linearne peptide in v 2/12 na ciklične (v treh vzorcih ni bilo razlike). Protitelesa IgE se tudi v primerjavi z motivom GKI signifikantno bolje vežejo na peptide z motivoma TKQE (p < 0,001) ali KPN (p < 0,001). Inkubacija serumov simptomatskih in asimptomatskih posameznikov z identificiranimi epitopom-podobnimi peptidi nam je razkrila, da tako simptomatiki kot asimptomatiki prepoznajo iste epitopske regije, vendar se določeni identificirani epitopom-podobni peptidi razlikujejo med simptomatskimi in asimptomatskimi posamezniki. Večjo razliko smo opazili pri afiniteti vezave, saj asimptomatiki signifikantno bolje vežejo epitopom-podobne peptide tako v linearni kot ciklični obliki (p = 0,001). ZAKLJUČEK: V predstavljenem doktorskem delu smo vpeljali nov protokol identifikacije epitopov z implementacijo tehnologije NGS in bioinformatskimi orodji, kar nam je omogočilo identifikacijo treh epitopskih regij na alergenu Ves v 5. Uporaba identificiranih epitopov za razločevanje med simptomatsko in asimptomatsko senzibilizacijo je v našem primeru pokazala, da simptomatiki in asimptomatiki prepoznavajo iste epitopske regije na alergenu, razlikujejo pa se v prepoznavi stranskih aminokislin (aminokisline, ki prispevajo manjši delež vezavne energije) in v sami afiniteti vezave. Za razjasnitev pomena pridobljenih rezultatov so potrebne nadaljnje raziskave.

Language:Slovenian
Keywords:alergen Ves v 5, B-celični epitopi, bakteriofagne predstavitvene knjižnice, sekvenciranje naslednje generacije (NGS), asimptomatska senzibilizacija
Work type:Doctoral dissertation
Organization:MF - Faculty of Medicine
Year:2024
PID:20.500.12556/RUL-158212 This link opens in a new window
Publication date in RUL:30.05.2024
Views:343
Downloads:72
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Secondary language

Language:English
Title:Epitopes of major vespid venom Ves v 5 and asymtomatic IgE sensitization to wasp sting
Abstract:
INTRODUCTION: In the doctoral thesis we identified epitopes of the allergen Ves v 5, the major allergen contained in wasp venom, meaning that it is responsible for the majority of allergies caused by a wasp sting. Allergen epitopes play a crucial role in the process of allergic reaction as they represent the area of IgE antibody binding, consequently leading to effector cell degranulation and manifestation of allergic reaction symptoms. Allergens display epitopes on their surface, and while the presence of monovalent binding of IgE antibody to the allergen is sufficient for the IgE detection in the sera for degranulation of effector cells and the consequent manifestation of allergic symptoms, at least two receptor-bound IgE antibodies need to be cross-linked. Identification of allergen epitopes is thus a crucial factor in the development of new diagnostic tests and new approaches for immunotherapy treatment. Epitope-based immunotherapy represents a potential alternative to currently used specific immunotherapy, since the synthetic peptides possess certain advantages compared to whole allergen extracts, such as production under standardised conditions, relatively uncomplicated isolation and stability in lyophilised form. Due to the advancements in the field of next-generation sequencing (NGS) and the development of new bioinformatic tools for analysing phage-display data and protein-peptide interactions, epitope identification reached a new peak as new technologies allowed us to obtain more reliable data. METHODS: For B-cell epitope identification we utilised phage display technology, using three bacteriophage libraries with a peptide length of 7 or 12 amino acids. Peptides were selected based on the binding to polyclonal anti-Ves v 5 IgG antibodies, which was followed by NGS and bioinformatic analysis of the obtained data (using PuLSE, R, SAROTUP, MEME, Hammock and WebLogo tools). Results were compared to previously identified epitope-like peptides submitted to the online database IEDB. Visualisation of epitope regions on the allergen was performed using Pepitope and Pymol. Using the peptide microarray, we evaluated the binding of IgE antibodies from 36 wasp sting symptomatic and 36 wasp sting asymptomatic individuals to the selected epitope-like peptides, with the aim of analysing whether antibodies of both groups bind different epitopes. We used linear and cyclic forms of epitope-like peptides. RESULTS: In the first part we identified epitope-like peptides and, consequently, the major epitope regions of the allergen. Prominent amino acid motifs of the three identified epitope regions are composed of amino acids TKQE, GKI, or KPN. In the online database of previously identified epitopes, we found 42 submissions for the allergen Ves v 5, from which all of them are T-cell epitopes. While the submissions containing TKQ(E) or KPN motifs appear several times, no GKI motif submission has yet been published. Analysis of the peptide microarray revealed that in 7/12 cases antibodies bind significantly better to linear peptides and in 2/12 to cyclic peptides (in three cases, no difference was observed). Additionally, IgE antibodies bind significantly better to the peptides containing TKQE (P < 0.001) or KPN (P < 0.001) compared to the GKI motif. Sera incubation of symptomatic and asymptomatic individuals revealed that both groups recognise the same epitope regions. However, several identified epitope-like peptides differ among symptomatic and asymptomatic individuals. A more significant difference could be observed for binding affinity, as asymptomatics bind the epitope-like peptides significantly better, both in linear and cyclic conformation (P = 0.001). CONCLUSION: In the presented doctoral thesis, we introduced a new protocol of epitope identification, implementing NGS technology and bioinformatic tools, which consequently allowed us to identify three epitope regions on the allergen Ves v 5. The utilisation of identified epitopes to distinguish between symptomatic and asymptomatic sensitisation showed that symptomatics and asymptomatics recognise the same epitope regions on the allergen; however, they differ in recognition of side amino acids (amino acids that contribute a smaller share of binding energy) and in the total binding affinity. Further research is needed to clarify the meaning of the obtained results.

Keywords:allergen Ves v 5, B-cell epitopes, phage display, next-generation sequencing (NGS), asymptomatic sensitization

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