Investigating the Role of Disulfide Bond Formation in FABP5

Love, Katie

January 2016

Thesis advisor: Abhishek Chatterjee / Thesis advisor: Eranthie Weerapana / EGF signaling activates multiple pathways within the cell that lead towards proliferation, rendering this pathway of interest for cancer therapy. Recent studies focused on triple-negative breast cancer have shown that EGF-induced tumorigenesis strongly correlates with the up-regulation of FABP5, which shuttles fatty acids from the cytoplasm of cells to the nucleus. Our work began with the identification of redox active cysteine residues upon EGF activation in situ using a caged electrophile to perform live cell labeling. In these studies, the C120 residue of FABP5 was identified as a cysteine with high redox activity and thus became a subject of further interest. The characterization of redox active cysteine residues yields important information about protein structure and function. We have confirmed these results via in-gel fluorescence and developed fluorescence assays to probe the significance of C120 and C127 in FABP5. Two fatty acids were chosen based on their conformation in the FABP5 binding pocket. Upon the addition of a fatty acid, wild type protein showed a decrease in fluorescence indicating that the fatty acids were outcompeting the fluorophores used. Future studies will investigate both wild type and mutant versions of FABP5 with emphasis on determining potential disulfide bond formation via phosphoproteomics and western blotting techniques. / Thesis (MS) — Boston College, 2016. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Cysteine

Disulfide

FABP5

Role kaudálního orgánu v chemické komunikaci myšic rodu Apodemus / The role of caudal organ in chemical communication in field mice of the genus Apodemus

Obstová, Lucie

January 2014

This thesis deals with the chemical communication of wood mouse of genus Apodemus with a focus on the special sebaceous gland on the ventral side of the tail - the caudal organ. Role of the caudal organ in chemical communication is unclear. To illustrate the function of the sebaceous glands, I decided to use metods of 454 pyrosequencing, proteomic analysis and qPCR. I created a database of transcriptionally active genes of caudal organ using 454 pyrosequencing. In proteomic analysis, I focused on proteins with a molecular weight 14-18kDa to verify the presence of the lipocalins, proteins involved in chemical communication. I compared the relative mRNA abundance of selected genes between individuals of the opposite sex using qPCR. In my research, I found that the caudal organ is active organ and caudal organ could participate in chemical communication. I detected a different relative mRNA abundance of genes in males and females at the mRNA level, which could play a role in differences in development of caudal organ between individuals of the opposite sex. Finally, I suggested possible ways of using the caudal organ in the chemical communication in wood mouse genus Apodemus from the obtained results. Key words: caudal organ, Apodemus, chemical communication, FABP5, Scd1

Die Auswirkungen eines FABP5-Knockdowns in chondrogenen Progenitorzellen / The effect of a knockdown of FABP5 in chondrogenic progenitor cells

Buderer, Philipp Dr.

15 June 2017

No description available.

610

Osteoarthrose

chondrogene Progenitorzellen

Knorpelregeneration

FABP5

RUNX2

osteoarthritis

chondorgenic progenitor cells

cartilage regeneration

FABP5

RUNX2

Medizin (PPN619874732)

DECIPHERING FABP5 ROLES IN CANCER AND NEURONAL DEVELOPMENT IN RESPONSE TO SMALL MOLECULE INHIBITORS AND DIETARY FATTY ACIDS

Folkwein, Heather J.

25 January 2022

No description available.

Chemistry

Molecular Biology

Neurobiology

Oncology

Rationale for the Study of Fatty Acid Binding Protein 5 in Alveolar Type II Cells

Garrison, Derek S.

January 2008

No description available.

Biochemistry

Bioinformatics

Biology

Biomedical Research

Cellular Biology

Health

Molecular Biology

FABP

FABP5

Prematurity

Fatty Acid Binding Protein

Surfactant

Lung Development

Lipogenesis