Notes:

Volume 9, Issue 5 (Suppl)

J Cancer Sci Ther, an open access journal

ISSN: 1948-5956

Cancer Stem Cells and Oncology Research 2017

June 26-28, 2017

Page 34

10

th

International Conference on

June 26-28, 2017 London, UK

CANCER STEM CELLS AND

ONCOLOGY RESEARCH

Self-multimerization of transglutaminase-2 mediated by the calcium binding C1 domain

Qamar Bashir

1,2

1

University of Oslo, Norway

2

Oslo University Hospital-Rikshospitalet, Norway

T

ransglutaminase 2 (TG2) is ubiquitously expressed enzyme with multiple functions. It belongs to the large TG2 family of eight

isozymes including blood coagulation factor XIII and TG1-7. TG2 is present in blood, extracellular matrix and intracellular

compartments. TG2 is primarily involved in deamidation of glutamine residues or covalent cross linking between glutamine and

lysine residues. TG2 induces wound healing, cell growth, differentiation and apoptosis. It is thus involved in treatment of cancer, liver

diseases, diabetes, fibrosis, and neurodegeneration as well as inflammatory and autoimmune disorders. TG2 is centrally involved

in celiac disease by being the target for highly disease specific autoantibodies and by deamidating gluten epitopes for recognition

of pathogenic T cells and B cells. It has been demonstrated that TG2 utilizes itself as a substrate that leads to the formation of

TG2 multimers. Gluten peptides can be incorporated into the multimers, forming TG2-TG2-gluten complexes. Such multivalent

complexes are excellent antigens both for TG2-specific and deamidated gluten specific B cells and also to lead efficient activation of

gluten specific T cells. TG2 consists of an N-terminal domain, a catalytic core domain and two C-terminal domains. TG2 is a calcium

dependent enzyme and its activity is mediated by calcium binding to the core domain. Previous studies have reported the binding

of at least six calcium ions, out of which five have been located in the catalytic core domain. In the current study, we have identified

a calcium binding site at the first C-terminal domain. We have characterized TG2 self multimerization and found that it is mediated

by the calcium binding C1 domain. Our findings offer insight into the functional mechanism of TG2 and will help in development

of new and improved therapeutics.

Biography

Qamar Bashir has completed his PhD and Post-doctoral studies from Leiden University, The Netherlands. Currently, he is a Researcher at University of Oslo,

Norway. He has published more than 15 papers in reputed journals, with a cumulative impact factor of 76 and 340 citations.

qamar.bashir@medisin.uio.no

Qamar Bashir, J Cancer Sci Ther 2017, 9:5(Suppl)

DOI: 10.4172/1948-5956-C1-102