EXAMINING THE ROLE OF OIP5 AND PCSK5 EXPRESSION IN PAPILLARY RENAL CELL CARCINOMA (pRCC) TUMORIGENESIS

Huong, Bryan

January 2022

Renal cell carcinoma (RCC) is a cancer that originates from renal tubular epithelial cells in the kidneys. Studies focusing on RCC are vital as it accounts for around 3% of all human cancers as of 2014 and accounts for over 90% of cancers affecting the kidneys. Being a heterogenous disease, RCC consists of multiple subtypes including papillary RCC (pRCC) with a 10% incidence rate. The heterogenous nature of RCC makes it difficult to determine biomarkers and therapeutic treatments that can provide adequate treatment targeting RCC in different patients, which stresses the need to discover as many therapeutic targets as possible. OIP5, also known as Mis18β, is a 25-kDa protein that is accumulated in the telophase-G1 centromere during mitosis and plays a role in centromere/kinetochore structure formation and functionality. As Mis18β, it interacts with Mis18α in a heterotetramer complex to bind and localize centromeric protein A (CENP-A) to the proper centromere region to allow for formation for centromere/kinetochore formation and function. OIP5 is normally highly expressed in the testes but recent studies have suggested that OIP5 overexpression is linked to the progression of some types of human cancers, including promoting pRCC cell proliferation and tumorigenesis. Furthermore, past studies have shown that other genes may impact RCC progression through regulation of cell growth and substrate activation extending past just the cell cycle. PCSK5 is another target of interest of focus in this study. Known also as PC6, it is a proprotein convertase which acts on precursor proteins to turn them into their active forms through post-translational modification and plays a role in cell growth and bone remodeling. This study aims to investigate the role of OIP5 during RCC progression both in vitro and in vivo with a focus on pRCC as well as investigate the expression of PCSK5 in conjunction with OIP5 and pRCC. In vitro studies confirmed previous results that OIP5 promotes colony formation in ACHN pRCC cells. Using a bioluminescent reporter alongside ACHN OIP5 and ACHN empty vector (EV) cell lines, mice were injected through renal subcapsule transplantation. It was seen that, while OIP5 produced larger tumors over a wider area after 12 weeks, metastasis did not appear to occur as largely as hoped though this may be due to limitations of the model. Analysis of the ACHN xenografts showed increased expression of PCSK5 and PLK1 in the OIP5 tumors. For PLK1, this is likely due to the close nature of its function with OIP5 during mitosis while PCSK5 may be regulated by OIP5 through an unknown mechanism or through microRNA miR-101-5p. Despite this, mRNA levels of PCSK5 were insignificant between OIP5 and EV groups. pRCC patient data showing PCSK5 expression levels showed a minor correlation with OIP5 expression, as well as higher expression at later pRCC stages and leading to reduced survival probability. Overall, this thesis analyzes the relationship of OIP5 in RCC, specifically pRCC, and introduces PCSK5 as another intriguing target for further study in treating pRCC. / Thesis / Master of Science (MSc) / This project focuses on renal cell carcinoma (RCC) which is a cancer that originates from renal tubular epithelial cells in the kidneys. The elusive and vast nature of RCC leads to many subtypes that differ histologically and biologically and thus require different diagnoses and treatments. By investigating the papillary RCC (pRCC) subtype, the goal is to identify potential biomarkers for pRCC that may aid in future clinical diagnosis and treatment. OIP5 is a protein scarcely investigated and past studies have shown its overexpression linked to pRCC progression and tumorigenesis, but further metastatic investigation is warranted. This study aimed to confirm OIP5 overexpression plays a role in cancer as well as use a luciferase firefly reporter gene to monitor OIP5’s role in tumorigenesis and metastatic potential in vivo using a live mouse model. Results suggest that OIP5 overexpression plays a role in enhanced tumor growth in vivo. PCSK5 is another fairly novel gene of interest in this study, and while research involving PCSK5 and RCC is severely limited, recent studies imply it may be affected by different oncogenes such as OIP5 and specific microRNA during ccRCC and pRCC progression. Therefore, this study investigated the presence of PCSK5 in OIP5 pRCC tissue and tumors. The results suggest that PCSK5 has a higher presence in OIP5 overexpressed cells and tissue as well as a higher mRNA presence. Figures created using public genomic datasets show a correlation between PCSK5 and OIP5 expression during the later stages of pRCC progression and with lower survival probabilities. This indicates the possibility of interaction between OIP5 and PCSK5 and if true, provides a potential link for finding more biomarkers for potential future therapeutic targeting.

OIP5

pRCC

PCSK5

Cancer

Tumorigenesis