Development and validation of methods for the diagnosis of lung cancer via serological biomarkers

buir.advisorGüre, Ali Osmay
dc.contributor.authorAkçay, Abbas Güven
dc.date.accessioned2019-02-26T11:32:58Z
dc.date.available2019-02-26T11:32:58Z
dc.date.copyright2019-02
dc.date.issued2019-02
dc.date.submitted2019-02-25
dc.descriptionCataloged from PDF version of article.en_US
dc.descriptionThesis (M.S.): Bilkent University, Department of Molecular Biology and Genetics, İhsan Doğramacı Bilkent University, 2019.en_US
dc.descriptionIncludes bibliographical references (leaves 53-57).en_US
dc.description.abstractOver 10% of all new cancer cases are lung cancer. Moreover, estimates till 2030 indicate that already increasing lung cancer incidences will keep increasing, especially in developing countries like Turkey. Lung cancer, the leading cause of cancer deaths, has two large divisions: Small Cell Lung Cancer (SCLC) and Non-Small Cell Lung Cancer (NSCLC). SCLC is the most aggressive subtype of lung cancer. And although, the treatment options and median survival time is more favorable in Limited Disease (LD), high tumor growth rate and metastatic tendency of SCLC even in the early stages, makes the diagnosis troublesome. Similarly, if NSCLC is diagnosed in early stages, surgery option is open and this increases the patient survival rate. However, current methods in screening and diagnosis, such as computed tomography (CT) and positron emission tomography (PET), are all limited by false positivity rates. Additionally, biopsy methods used in histological evaluations are both invasive and prone to false negativity. Therefore, new diagnostic tools which are cheap, accurate and non-invasive are in high demand. Autologous antibodies are abundantly elicited and stably exist in patient sera years before the clinical diagnosis of disease. Several such antibodies were reported by our group and other groups in lung cancer. Therefore, new diagnostic methods incorporating autologous antibodies can be a huge step forward in early diagnosis of lung cancer. Moreover, miRNAs, with their unique hormone like features such as circulation in serum and their regulatory effects in cell, are another good candidate for the early diagnosis of lung cancer. Therefore, in this study I aimed to develop a reliable, robust and automated evaluation method to re-evaluate custom Protein Array (cPA) screenings previously performed in our lab, and to determine the autologous antibodies with highest discriminatory power between SCLC patients & healthy controls. Moreover, I aimed to develop a Quartz Crystal Microbalance with Dissipation (QCM-D) based immunoassay to be incorporated later in the validation of cPA results. Lastly, in a parallel study I aimed to identify and validate novel miRNA biomarkers NSCLC. My results indicate that cPAs can have better sensitivity and specificity than ELISA and that QCM-D can be developed as an alternative to ELISA. miRNAs identified in silico, can also be validated ex vivo. Previously, Protein Arrays (PAs) and cPAs were screened using 49 SCLC patient’s and 50 healthy serums in our laboratory, incorporating visual and manual evaluations. Sensitivity and specificity values were calculated for individual autologous-antibodies and a number of autologous-antibody panels. Moreover, validations of cPA results were carried via ELISA. However, large discrepancies between cPA and ELISA results, as well as inconsistencies among ELISA results urged me to consider re-evaluation of cPA results with a more robust way, and to focus on developing a method superior to ELISA in autologous-antibody evaluations. Therefore, I incorporated AIDA to generate numeric values out of cPA screening images and filtered low quality data with optimized cut-off values. Several Receiver Operating Characteristic (ROC) curves were plotted using evaluated data. Improved results were evident by the increased Area Under Curve (AUC) values in both individual and combined ROC curves. Moreover, I developed a QCM based immunosensor for detection of anti-SOX2 antibody to be incorporated later in validation of cPA results. Binding interaction between anti-SOX2 antibody and SOX2 protein was modelled using 1:1 Langmuir Isothermal Binding and standard curves generated in QCM. In a parallel study, I also investigated miRNAs significantly upregulated in NSCLC when compared to high risk controls. For that purpose, miRNA expression datasets were gathered from GEO. Selected 2 datasets with the same sample type were analyzed for common significantly upregulated miRNAs among these two datasets. Significantly upregulated miRNAs were subjected to logistic regression analysis with LASSO regularization (error metrics: AUC and MSE) to select best panel of miRNAs that can distinguish NSCLC patients from healthy controls in given datasets. Moreover, selected miRNAs were analyzed with qRT-PCR to validate the panel. I was able to re-evaluate cPA results by eliminating low quality data from numeric values generated via AIDA software from cPA images. I identified a panel of 4 autologous antibodies (FKBP8 – P53 – SOX2 – POLB) which resulted in 60% sensitivity at 100% specificity in discrimination of SCLC from controls. ROC of this autologous antibody panel had an AUC of 95.04%. Given panel surpassed diagnostic power of the only commercially available diagnostic kit of the same kind; EarlyCDT-Lung. Moreover, proof of concept for measurements of anti-protein antibodies were carried successfully in QCM, using anti-SOX2 antibody-SOX2 protein pair in PBS buffer as an example for it. Early results of anti-SOX2 mAb QCM indicate a linear assay range comparable to ELISA. Langmuir Isothermal Binding model revealed a strong interaction between antibody and protein in our QCM anti-SOX2 measurement experiments. Lastly, I was able to select 5 miRNAs using logistic regression and LASSO regularization that can best discriminate between NSCLC patients and high risk controls. However, validation experiments using qRT-PCR needs to be repeated as low Ct values and prominent hemolysis in serum samples prevented drawing meaningful conclusions.en_US
dc.description.provenanceSubmitted by Betül Özen (ozen@bilkent.edu.tr) on 2019-02-26T11:32:58Z No. of bitstreams: 1 DEVELOPMENT AND VALIDATION OF METHODS FOR THE DIAGNOSIS OF LUNG CANCER VIA SEROLOGICAL BIOMARKERS_Abbas Güven Akçay_Facul~1.pdf: 2414391 bytes, checksum: 0a6536e020465ebb2b3659eca4e43d0f (MD5)en
dc.description.provenanceMade available in DSpace on 2019-02-26T11:32:58Z (GMT). No. of bitstreams: 1 DEVELOPMENT AND VALIDATION OF METHODS FOR THE DIAGNOSIS OF LUNG CANCER VIA SEROLOGICAL BIOMARKERS_Abbas Güven Akçay_Facul~1.pdf: 2414391 bytes, checksum: 0a6536e020465ebb2b3659eca4e43d0f (MD5) Previous issue date: 2019-02en
dc.description.statementofresponsibilityby Abbas Güven Akçayen_US
dc.embargo.release2019-08-22
dc.format.extentxvi, 61 leaves : charts ; 30 cm.en_US
dc.identifier.itemidB159738
dc.identifier.urihttp://hdl.handle.net/11693/50629
dc.language.isoEnglishen_US
dc.rightsinfo:eu-repo/semantics/openAccessen_US
dc.subjectLung canceren_US
dc.subjectSCLCen_US
dc.subjectNSCLCen_US
dc.subjectCustom protein arrayen_US
dc.subjectEarly diagnosisen_US
dc.subjectSerumen_US
dc.subjectSerologicalen_US
dc.subjectAutologous antibodiesen_US
dc.subjectmiRNAen_US
dc.subjectBiomarkeren_US
dc.subjectELISAen_US
dc.subjectQCMen_US
dc.subjectROCen_US
dc.subjectSensitivityen_US
dc.subjectSpecificityen_US
dc.subjectLogistic regressionen_US
dc.subjectLASSOen_US
dc.subjectqRT-PCRen_US
dc.titleDevelopment and validation of methods for the diagnosis of lung cancer via serological biomarkersen_US
dc.title.alternativeAkciğer kanserinin serolojik biyobelirteçler ile teşhisine yönelik yöntem geliştirilmesi ve doğrulanmasıen_US
dc.typeThesisen_US
thesis.degree.disciplineMolecular Biology and Genetics
thesis.degree.grantorBilkent University
thesis.degree.levelMaster's
thesis.degree.nameMS (Master of Science)

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