Epstein-Barr-viruksen antigeeniosoitustestin kehittäminen

Epstein-Barr-virus (EBV) aiheuttaa mononukleoosia eli pusutautia, joka ilmenee yleensä murrosiällä tai nuorella aikuisiällä. Mononukleoosissa on tyypilliset nielutulehduksen oireet, minkä takia sitä on vaikea erottaa muiden taudinaiheuttajien aiheuttamista nielutulehduksista. Erotusdiagnostiikan käyttö nielutulehduksessa on oleellista, koska vain Streptokokki-bakteerien aiheuttamat nielutulehdukset vaativat antibioottihoitoa. Akuutin EBV-infektion pikadiagnostiikka perustuu nykyisellään infektion seurauksena muodostuvien heterofiilisten vasta-aineiden mittaamiseen verestä. Niiden mittaamisessa on useita ongelmia, koska useilla lapsilla niitä ei muodostu lainkaan ja vanhemmillakin niitä muodostuu yleensä vasta viikon päästä mononukleoosin oireiden alkamisesta. Mittaamalla EBV:n antigeeneja saataisiin positiivinen testitulos vasta-ainetestiä nopeammin. EBV:lle ei ole kuitenkaan kehitetty antigeeniosoitustestiä todennäköisesti siksi, että EBV:n erittymisen terveiden viruksen kantajien limakalvoille uskotaan olevan ongelma antigeenitestauksessa. Diplomityön tavoitteena oli kehittää akuutin EBV-infektion pikadiagnostiikkaan soveltuva limakalvonäytteestä tehtävä immunometrinen antigeeniosoitustesti. Työssä kehitettiin uusia polyklonaalisia vasta-aineita sekä testattiin kaupallisia vasta-aineita. Vasta-aineiden toimintaa tutkittiin immunomäärityksissä kokonaista EBV:ta ja puhdistettuja proteiiniantigeeneja vastaan. Monoklonaalisten vasta-aineiden kehitys lopetettiin ennen varsinaista tuottoa, koska ensin kehitetyt polyklonaaliset vasta-aineet eivät tunnistaneet natiivia virusta vaan pelkästään immunisointeihin käytetyt rekombinanttiset kohdeproteiinit. Kaupallisista vasta-aineista yhdellä onnistuttiin kehittämään tiettävästi maailman ensimmäinen immunometrinen EBV-antigeeniosoitustesti, jossa saatiin tunnistus sekä natiivilla EBV:lla että puhdistetulla proteiiniantigeenilla. Testin herkkyys proteiiniantigeenilla oli hyvä (4 pM) ja puhdistetulla EBV-virusvalmisteellakin todennäköisesti riittävä (6,2×106 viruspartikkelia/ml) kliiniseen diagnostiikkaan. Testillä ei kuitenkaan saatu suppeasta mononukleoosipotilaiden nielunäyteaineistosta yhtään EBV-positiivista tulosta. Referenssiksi tilatut PCR-testit osoittivat näytteiden EBV-pitoisuuksien olevan liian alhaisia osoitettavaksi kehitetyllä EBV-antigeeniosoitustestillä. PCR-testauksessa mononukleoosipotilaiden nielunäytteistä osoitettujen alhaisten EBV-määrien perusteella spekuloitiin, että olisiko edustavin näytteenottopaikka akuutissa EBV-infektiossa sittenkin nielun sijaan nenänielu. Myös kirjallisuudesta löytyi tälle tukea. EBV-antigeeniosoitustestin osoitettiin toimivan hyvin standardinäyte-materiaalilla. Testikehitysprojektin jatkon kannalta oleellista on kuitenkin vielä selvittää laajemmalla kliinisellä näyteaineistolla, mistä EBV:n antigeeneja pitäisi osoittaa akuutissa EBV-infektiossa ja ovatko niiden pitoisuudet riittävän korkeita.

Methods of genetic diversity creation and functional display for directed evolution experiments

Protein engineering aims to improve the properties of enzymes and affinity reagents by genetic changes. Typical engineered properties are affinity, specificity, stability, expression, and solubility. Because proteins are complex biomolecules, the effects of specific genetic changes are seldom predictable. Consequently, a popular strategy in protein engineering is to create a library of genetic variants of the target molecule, and render the population in a selection process to sort the variants by the desired property. This technique, called directed evolution, is a central tool for trimming protein-based products used in a wide range of applications from laundry detergents to anti-cancer drugs. New methods are continuously needed to generate larger gene repertoires and compatible selection platforms to shorten the development timeline for new biochemicals. In the first study of this thesis, primer extension mutagenesis was revisited to establish higher quality gene variant libraries in Escherichia coli cells. In the second study, recombination was explored as a method to expand the number of screenable enzyme variants. A selection platform was developed to improve antigen binding fragment (Fab) display on filamentous phages in the third article and, in the fourth study, novel design concepts were tested by two differentially randomized recombinant antibody libraries. Finally, in the last study, the performance of the same antibody repertoire was compared in phage display selections as a genetic fusion to different phage capsid proteins and in different antibody formats, Fab vs. single chain variable fragment (ScFv), in order to find out the most suitable display platform for the library at hand. As a result of the studies, a novel gene library construction method, termed selective rolling circle amplification (sRCA), was developed. The method increases mutagenesis frequency close to 100% in the final library and the number of transformants over 100-fold compared to traditional primer extension mutagenesis. In the second study, Cre/loxP recombination was found to be an appropriate tool to resolve the DNA concatemer resulting from error-prone RCA (epRCA) mutagenesis into monomeric circular DNA units for higher efficiency transformation into E. coli. Library selections against antigens of various size in the fourth study demonstrated that diversity placed closer to the antigen binding site of antibodies supports generation of antibodies against haptens and peptides, whereas diversity at more peripheral locations is better suited for targeting proteins. The conclusion from a comparison of the display formats was that truncated capsid protein three (p3Δ) of filamentous phage was superior to the full-length p3 and protein nine (p9) in obtaining a high number of uniquely specific clones. Especially for digoxigenin, a difficult hapten target, the antibody repertoire as ScFv-p3Δ provided the clones with the highest affinity for binding. This thesis on the construction, design, and selection of gene variant libraries contributes to the practical know-how in directed evolution and contains useful information for scientists in the field to support their undertakings.

Collagen binding integrins and cancer testis antigens in prostate cancer and melanoma

Camilla Pelo Collagen Binding Integrins and Cancer Testis Antigens in Prostate Cancer and Melanoma Department of Biochemistry, MediCity Research Laboratory, University of Turku, Finland Annales Universitatis Turkuensis, Painosalama Oy, Turku, Finland 2016 ABSTRACT Prostate cancer is the second most common cancer in men worldwide. The incidence of melanoma, in turn, is increasing faster than any other cancer incidences. In Finland, more than 5000 prostate cancer and 1200 new melanoma cases are diagnosed each year. One approach to further understand the cellular processes involved in prostate cancer and melanoma is to gain better knowledge about alterations in gene expression and their potential impact on the progression of the diseases. This thesis is focused on expression studies in two gene families; integrins and cancer testis antigens (CT antigens), in human prostate adenocarcinoma and advanced human melanoma. Integrins are heterodimeric transmembrane receptors which regulate many important cellular processes such as cell proliferation, migration and survival. CT antigens are frequently expressed in different types of cancers, but are only expressed in testis in healthy individuals. CT antigens are also highly immunogenic proteins. Due to the properties mentioned above, integrins and CT antigens can function as target molecules for the development of cancer diagnostics and drugs. One of the main purposes of this thesis was to study the expression of the four collagen binding integrins α1β1, α2β1, α10β1, α11β1 and the cancer testis antigen 16 (CT16) in cancer cell lines and human tissues of prostate cancer and metastatic melanoma. Additional aims included studies on the biological role of CT16 and the abundance of CT16 in sera of advanced melanoma patients. The prognostic and diagnostic significance of CT16 and the collagen binding integrins were also evaluated. Expression studies on collagen binding integrins and the CT antigen CT16 in melanoma and prostate cancer were limited and the biological role of CT16 was unknown. In this thesis, the expression levels of α2β1 and α11β1 were found to be significantly altered in prostate cancer tissues. Integrin α2β1 decreased gradually during disease progression while α11 was elevated in prostate carcinoma compared to healthy tissues. In advanced melanoma, enhanced levels of α2 were associated with a significant shorter overall survival in advanced melanoma. In this thesis, CT16 was identified as a frequently expressed melanoma CT antigen with an anti-apoptotic function. To conclude, this thesis presents α2β1 and CT16, as potential and promising biomarkers for advanced melanoma. This thesis reports also the first functional study of CT16. Keywords: Collagen binding integrins, α1β1, α2β1, α10β1, α11β1, Cancer Testis antigens, CT16, melanoma, prostate cancer, expression