The Study of Two Strategies for Decreasing Mutant Huntingtin: Degradation by Puromycin Sensitive AminoPeptidase and RNA Interference: A Dissertation

Chaurette, Joanna

22 May 2013

Huntington’s disease (HD) is a fatal neurodegenerative disease caused by a CAG repeat expansion in exon 1 of the huntingtin gene, resulting in an expanded polyglutamine (polyQ) repeat in the huntingtin protein. Patients receive symptomatic treatment for motor, emotional, and cognitive impairments; however, there is no treatment to slow the progression of the disease, with death occurring 15-20 years after diagnosis. Mutant huntingtin protein interferes with multiple cellular processes leading to cellular dysfunction and neuronal loss. Due to the complexity of mutant huntingtin toxicity, many approaches to treating each effect are being investigated. Unfortunately, addressing one cause of toxicity might not result in protection from other toxic insults, necessitating a combination of treatments for HD patients. Ideally, single therapy targeting the mutant mRNA or protein could prevent all downstream toxicities caused by mutant huntingtin. In this work, I used animal models to investigate a potential therapeutic target for decreasing mutant huntingtin protein, and I apply bioluminescent imaging to investigate RNA interference to silence mutant huntingtin target sites. The enzyme puromycin sensitive aminopeptidase (PSA) has the unique property of degrading polyQ peptides and been implicated in the degradation of huntingtin. In this study, we looked for an effect of decreased PSA on the pathology and behavior in a mouse model of Huntington’s disease. To achieve this, we crossed HD mice with mice with one functional PSA allele and one inactivated PSA allele. We found that PSA heterozygous HD mice develop a greater number of pathological inclusion bodies, representing an accumulation of mutant huntingtin in neurons. PSA heterozygous HD mice also exhibit worsened performance on the raised-beam test, a test for balance and coordination indicating that the PSA heterozygosity impairs the function of neurons with mutant huntingtin. In order to test whether increasing PSA expression ameliorates the HD phenotype in mice we created an adeno-associated virus (AAV) expressing the human form of PSA (AAV-hPSA). Unexpectedly, testing of AAV-hPSA in non-HD mice resulted in widespread toxicity at high doses. These findings suggest that overexpression of PSA is toxic to neurons in the conditions tested. In the second part of my dissertation work, I designed a model for following the silencing of huntingtin sequences in the brain. Firefly luciferase is a bioluminescent enzyme that is extensively used as a reporter molecule to follow biological processes in vivo using bioluminescent imaging (BLI). I created an AAV expressing the luciferase gene containing huntingtin sequences in the 3'-untranslated region (AAV-Luc-Htt). After co-injection of AAV-Luc-Htt with RNA-silencing molecules (RNAi) into the brain, we followed luciferase activity. Using this method, we tested cholesterol-conjugated siRNA, un-conjugated siRNA, and hairpin RNA targeting both luciferase and huntingtin sequences. Despite being able to detect silencing on isolated days, we were unable to detect sustained silencing, which had been reported in similar studies in tissues other than the brain. We observed an interesting finding that co-injection of cholesterol-conjugated siRNA with AAV-Luc-Htt increased luminescence, findings that were verified in cell culture to be independent of serotype, siRNA sequence, and cell type. That cc-siRNA affects the expression of AAV-Luc-Htt reveals an interesting interaction possibly resulting in increased delivery of AAV into cells or an increase in luciferase expression within the cell. My work presents a method to follow gene silencing of huntingtin targets in the brain, which needs further optimization in order to detect sustained silencing. Finally, in this dissertation I continue the study of bioluminescent imaging in the brain. We use mice that have been injected in the brain with AAV-Luciferase (AAV-Luc) to screen 34 luciferase substrate solutions to identify the greatest light-emitting substrate in the brain. We identify two substrates, CycLuc1 and iPr-amide as substrates with enhanced light-emitting properties compared with D-luciferin, the standard, commercially available substrate. CycLuc1 and iPr-amide were tested in transgenic mice expressing luciferase in dopaminergic neurons. These novel substrates produced luminescence unlike the standard substrate, D-luciferin which was undetectable. This demonstrates that CycLuc1 and iPr-amide improve the sensitivity of BLI in low expression models. We then used CycLuc1 to test silencing of luciferase in the brain using AAV-shRNA (AAV-shLuc). We were unable to detect silencing in treated mice, despite a 50% reduction of luciferase mRNA. The results from this experiment identify luciferase substrates that can be used to image transgenic mice expressing luciferase in dopaminergic neurons. My work contributes new data on the study of PSA as a modifier of Huntington’s disease in a knock-in mouse model of Huntington’s disease. My work also makes contributions to the field of bioluminescent imaging by identifying and testing luciferase substrates in the brain to detect low level of luciferase expression.

Aminopeptidases

Huntington Disease

Mutant Proteins

Nerve Tissue Proteins

RNA Interference

Dissertations, UMMS

Genetics and Genomics

Nervous System Diseases

Neuroscience and Neurobiology

Evolutionary and functional analysis of RavC, a Legionellales-wide conserved effector

Brodin, Emma

January 2022

No description available.

Microbiology in the medical area

The use of a synthetic hedgehog agonist in mouse models of chondrodysplasia /

Morrison, David, 1981-

January 2008

No description available.

Bone Development -- physiology.

Mice.

Achondroplasia -- genetics.

Mice, Mutant Strains.

Hedgehog Proteins -- agonists.

Environmental Pseudomonas are a source of Novel Antibiotics that inhibit Cystic fibrosis derived pathogenic Pseudomonas aeruginosa

Chatterjee, Payel

14 November 2017

No description available.

Microbiology

Biology

Cystic fibrosis

antibiotic

multi-drug resistance

antibiotic resistance

Pseudomonas aeruginosa

biosynthetic gene cluster

antagonistic

mutant

transposon

Application of Proteomics in the Investigation of Morphogenesis in Wangiella Dermatitidis

Breidenbaugh, Caralisa

05 September 2008

No description available.

Microbiology

Molecular Biology

Public Health

Wangiella

pathogenic

polymorphic

yeast

heat shock protein 60

temperature-sensitive mutant

proteomics

melanized

Sequence Specificity of Src Homology-2 Domains

Tan, Pauline H.

06 January 2012

No description available.

Biochemistry

Chemistry

SH2 Domain

Binding Specificity

Src kinase

kinase

SHP2

SH2 mutant

protein-protein interaction

peptide library

protein binding

Context Dependence of Non-Covalent Interactions Among Amino-Acid Side Chains Along the Solvent-Exposed Surface of Coiled Coils

Stern, Kimberlee Larsen

22 June 2023

Coiled coils are a well-known protein structure prevalent in eukaryotic function, synthetic applications, and de novo protein design. Coiled-coil folding is often described using heptad repeat positions labeled abcdefg where a and d positions occupy the interface between the coils, e and g positions flank the interface, and the b, c, and f positions face the solvent-exposed surface. The a, d, e, and g positions have been extensively studied in the coiled-coil literature. There is a lack of investigation on the impact of the b, c, and f positions on coiled-coil folding. Chapter 1 is an introduction to the heptad repeat of coiled coils and the impact on folding of each heptad repeat position. In Chapter 2 we introduce a non-covalent interaction among the b, c, and f positions of a coiled-coil trimer that significantly enhances thermodynamic stability. We identify characteristics of the f-position residue (hydrogen bond donating ability and hydrophobicity) that lead to the greatest amount of stability. Chapter 3 introduces crystal structures and molecular dynamic simulations of the interaction to identify the mechanism of stabilization. Further thermodynamic studies find a key salt-bridge interaction between the b and c positions that are influenced by the f-position residue. Chapter 4 explores the impact of salt on the non-covalent interaction and determines that the interaction is sensitive to salt screening and is ionic in nature. It also explores more characteristics of the f-position amino acid, in particular the hydrogen bond donating component. In Chapter 5 we insert the solvent-exposed interaction into helix bundles of differing length and oligomeric state. We find that stability is not only dependent upon amino acid identity but also the length and stoichiometry of a coiled coil.

Coiled coils

non-covalent interactions

solvent exposed amino acids

coiled-coil design

double-mutant cycle analysis

Physical Sciences and Mathematics

Parallel RNA interference screens identify EGFR activation as an escape mechanism in FGFR3-mutant cancer

Herrera-Abreu, M.T., Pearson, A., Campbell, J., Shnyder, Steven, Knowles, M.A., Ashworth, A., Turner, N.C.

January 2013

No / Activation of fibroblast growth factor receptors (FGFR) is a common oncogenic event. Little is known about the determinants of sensitivity to FGFR inhibition and how these may vary between different oncogenic FGFRs. Using parallel RNA interference (RNAi) genetic screens, we show that the EGF receptor (EGFR) limits sensitivity to FGFR inhibition in FGFR3-mutant and -translocated cell lines, but not in other FGFR-driven cell lines. We also identify two distinct mechanisms through which EGFR limits sensitivity. In partially FGFR3-dependent lines, inhibition of FGFR3 results in transient downregulation of mitogen-activated protein kinase signaling that is rescued by rapid upregulation of EGFR signaling. In cell lines that are intrinsically resistant to FGFR inhibition, EGFR dominates signaling via repression of FGFR3, with EGFR inhibition rescued by delayed upregulation of FGFR3 expression. Importantly, combinations of FGFR and EGFR inhibitors overcome these resistance mechanisms in vitro and in vivo. Our results illustrate the power of parallel RNAi screens in identifying common resistance mechanisms to targeted therapies. SIGNIFICANCE: Our data identify a novel therapeutic approach to the treatment of FGFR3-mutant cancer, emphasizing the potential of combination approaches targeting both FGFR3 and EGFR. Our data extend the role of EGFR in mediating resistance to inhibitors targeting a mutant oncogene, showing that EGFR signaling can repress mutant FGFR3 to induce intrinsic resistance to FGFR targeting.

REF 2014

Parallel RNA interference

Fibroblast growth factor receptors

FGFR3-mutant cancer

EGFR

Therapeutic approach

Combination approaches

Development of Highly Potent LIMK2 Inhibitors and Identification of Most Important Cysteine Residues in Formation of LIMK2 Dimer

Michael Andreas Tandiary (9029354)

16 May 2024

Sulfonamide derivatives have been designed and synthesized for LIMK2 inhibitors. The inhibition activities of the sulfonamide derivatives were tested against LIMK2. The best sulfonamide derivative was three times more potent than the best sulfonamide inhibitors previously published based on MTT assay results.<br>Two LIMK2 single mutants, LIMK2-365 and LIMK2-549, and a LIMK2 double mutant (LIMK2-DM) were cloned, and their phosphorylation activities were measured and compared against normal LIMK2. LIMK2-365, LIMK2-549, and LIMK2-DM all showing lower activities than the normal LIMK2, with the LIMK2-DM showing even lower activity than each of the single mutant LIMK2, suggesting the importance of these amino acid residues in phosphorylation and in the formation of dimer LIMK2.<p></p>

Organic chemical synthesis

LIMK2 Inhibitors

Cloning of LIMK2 Mutant Proteins

Biochemistry

Organic Chemical Synthesis

Characterization of alternative NADH dehydrogenases in the respiratory chain of Toxoplasma gondii as a novel drug targets / Characterization of alternative NADH dehydrogenases in Toxoplasma gondii / Characterisierung der alternativen NADH Dehydrogenasen in der Atmungskette von Toxoplasma gondii - ein potentieller Angriffspunkt für Chemotherapeutika / Characterisierung der alternativen NADH Dehydrogenasen von Toxoplasma gondii

Saleh, Ahmad Mahmoud Hasan

01 November 2006

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

HDQ

oxydierende Phosphorylierung

Drogeziel

HDQ

oxidative phosphorylation

conditional mutant

drug target

42.13

42.30