Digital Commons Network^™

Patholigical And Prognostic Role Of Mdig In Pancreatic Cancer, Srinivas Ashok Kumar

Wayne State University Theses

Pancreatic cancer is a highly aggressive malignant disease having very limited therapeutic options that ultimately results in its poor prognosis. It is still elusive on the etiology and tumorigenic mechanisms of pancreatic cancer. In the present report, we provide evidence showing involvement of the mineral dust-induced gene (mdig) in the pathogenesis and prognosis of the pancreatic cancer. Using immunohistochemistry approach on human pancreatic cancer tissue microarray, we found differential expression of mdig in pancreatic adenocarcinoma and normal pancreas. Based on the staining intensities of mdig in these tissue samples, we found that 12% of the cancer tissues were strongly positive …

Human Cytomegalovirus Cytoplasmic Virion Assembly Complex: Structure In Vivo And Role Of Pul103 In Its Biogenesis, Ma Christina Raye Lim

Wayne State University Theses

Human Cytomegalovirus (HCMV) is a linear, double stranded DNA virus that causes severe disease in the immunocompromised, and is one of the common cause of congenital disease. Antivirals that are currently available for treatment target the DNA replication of the virus cycle, and are highly toxic. Finding new drug targets, such as proteins responsible for virion assembly and egress, would help to alleviate the disease burden.

HCMV remodels the host cell to form a structure called the cytoplasmic virion assembly complex (cVAC), a site of virion maturation and egress. The first objective of this work is to study the structure …

Differential Activation Of Dead Box Rna Helicases Rhlb And Rhle By Hfq/Srnas And Their Target Mrnas, Amit Kumar

Wayne State University Theses

Number of small RNA (sRNA) gene regulators have mounted in E. coli over the years whereas the number of validated protein partners has not changed considerably. Hfq has remained the only well studied global regulatory partner of sRNAs in E. coli. However, direct or indirect involvement of other protein partners has always been speculated. Study from Blasi lab has shown that CsdA, one of the five DEAD-box RNA helicases of E. coli, is required for the DsrA mediated upregulation of rpoS under cold stress condition. Previous study from our lab has identified two other DEAD-box RNA helicases, RhlB and RhlE, …

Design, Synthesis And Analysis Of Potential Photo-Activatable Cathepsin K Inhibitors, Khalin Evania Nisbett

Wayne State University Theses

Abstract

DESIGN, SYNTHESIS AND ANALYSIS OF POTENTIAL PHOTO-ACTIVATABLE CATHEPSIN K INHIBITORS

by

KHALIN NISBETT

May 2017

Advisor: Dr. Jeremy Kodanko

Major: Chemistry

Degree: Master of Science

Tightly regulated cysteine CA proteases play a major role in maintaining the homeostasis within cells. Subsequently, when these proteases are dysregulated and mislocalized they disrupt healthy cell dynamics and contribute to many life-threatening pathologies such arteriosclerosis, osteoporosis and cancer. As such many pharmaceutical companies and research teams are highly interested in these proteases as targets. One emergent strategy is the spatiotemporal control of biological processes. In relation to this, a series of spatiotemporally controlled …

Fam129b Phosphorylation And Its Effect On Membrane Localization In Confluent Hela Cells, Lakshmi Thompil Somasekharan

Wayne State University Theses

Phosphorylation and de-phosphorylation of many proteins is a key regulator of cellular life. It maintains cellular activity through an array of signaling pathways like cell division, proliferation and growth. However, Overexpression or mutations by the constitutive activation of phosphorylation machinery disrupt the balance in the cell, driving the inappropriate activation or deactivation of the cellular processes it controls. FAM129B is a protein whose activity is partly maintained by phosphorylation and dephosphorylation at the six serine residues at the C-terminal. FAM129B is expressed highly in many forms of cancer and its main function is to suppress apoptosis and enhances cancer cell …

The Effect Of Acetylation Of Cytochrome C On Its Functions In Prostate Cancer, Viktoriia Bazylianska

Wayne State University Theses

Prostate cancer is the second leading cause of cancer death among men in America. The progression of cancer goes along with the Warburg effect, a metabolic switch from depending primarily on mitochondrial respiration to glycolysis. In addition, cancer cells manage to evade apoptosis. Cell signaling, via posttranslational modifications (PTMs), is one of the most important means of regulation, and most commonly dysregulated in cancer. In prostate cancer, androgen signaling plays a crucial role in driving cell proliferation.

Mammalian Cytochrome c (Cytc) is a multifunctional protein involved in cellular life and death decision. It is an essential component of the electron …

Fam129b, A Novel Adherent Junction Protein, Forms A Complex With Keap1, Fatme Ali Hachem

Wayne State University Theses

FAM129B/Minerva, a protein implicated in melanoma cell invasion, has been shown to suppress TNFα induced apoptosis in cancer cells (Song, Evans & Evans (2010), JBC 286, 10201-09), thus contributing to the survival of metastatic cells. KEAP1, a substrate recognition molecule for the CUL3 E3 ubiquitin ligase, plays a central role in the activation of the TNFα pathway. We wish to test the hypothesis that the up-regulation of FAM129B in cancer cells suppresses apoptosis by sequestering KEAP1, thus preventing its participation in the apoptotic pathway. The first step is to demonstrate that FAM129B and KEAP1 form a complex. We have cloned …

Development Of Student Data Visualization Tool, Adaption Of Clostridium Difficile Toxin A Into Protein Delivery Vehicle, And Elucidation Of Tcdc Mechanism Of Toxin Control, Adam Boyden

Wayne State University Theses

Advancing student success in higher education is of paramount importance, and is in need for a tool that visualizes student data in a longitudinal manner. Student Circos plots achieve this by plotting student data in circular plots, depicting the timeline and grades for students selected by demographic or performance information. Cellular delivery of exogenous proteins is a bountiful area of research. However, most current systems have limited in vivo applications and most lack cellular specificity. By adapting Toxin A from Clostridium difficile, the goal was to create a cell specific protein delivery vehicle that would be robust in vivo. However, …

Determination Of The Direct Protein-Protein Interactions In The Drosophila Sin3a Complex, Ian Moore

Wayne State University Theses

The proteins that comprise the Drosophila SIN3 220 and SIN3 187 complexes are currently known. Limited information with regard to interacting complex member proteins has been described. Much of these data are results of high-throughput investigations, and there have been no studies done to reconstitute all direct interactions within the complex. The unique C-terminal region of the SIN3 220 isoform was used to test for interactions with other complex proteins using the bacterial expression system. Additionally, the region of Caf1-55 necessary for interaction with SIN3 in vivo was identified using a truncation mutant. The results of this work identified novel …

Mechanistic And Inhibitory Analysis Of Clostridium Difficile Associated Diseases, Brianna Marie Jackman

Wayne State University Theses

.

Elucidating Structure, Function, And Small Molecular Interactions Of Human Immunodeficiency Virus And Chikungunya Virus, Kristin Nicole Slater

Wayne State University Theses

Abstract HIV-1:

Human immunodeficiency virus-1 (HIV-1) is a widespread, incurable retrovirus known to cause

immunodeficiency and a shortened life span. Despite successful treatment methods, HIV-1

frequently mutates, resulting in antiviral resistance. Many therapies target the HIV-1 protease

(PR), which is responsible for cleaving the viral polyprotein essential for its life cycle. HIV-1 PR

often evades treatment by way of mutations and less commonly through residue insertions. We

have identified a clinical isolate with a five residue insertion between residues 28 and 29.

Through molecular dynamics simulations we analyzed the protease protein structure and

determined that the residue insertion created a …

Expression, Purification And Characterization Of Lysine Methyltransferase Smyd5, Wen Xue

Wayne State University Theses

Methylation of histones and non-histone proteins play vital roles in numerous cellular processes including gene expression regulation and DNA damage response. The identifications of methyltransferase SMYD protein family are not well characterized. SMYD5 is a unique and critical member of SMYD family involved in immune response, stem cell renew, hematopoiesis regulation and cancer metastasis. Understanding its function and structure is monumental to human disease. With the achievement of SMYD5 expression and purification, the association between SMYD5 and its substrate histone H4 has been investigated. While possessing a poly-E tail instead of the TPR domain included in other members, SMYD5 is …