Published May 2008 | Version v1
Miscellaneous

Bcl-w, a Radio-resistant Protein, Promotes the Gastric Cancer Cell Migration by inducing the phosphorylation of Focal Adhesion Kinase

  • 1. Korea Institute of Radiological and Medical Sciences, Seoul (Korea, Republic of)

Description

Gastric cancer is one of the leading malignancies in many countries and lethal for the high incidence of recurrence even after drastic surgical resection. Because local invasion and subsequent metastasis contributes to the failure of anticancer treatments of gastric cancer, a better understanding of the mechanisms involved in tumor invasiveness within the stomach seems to be essential for the control of this disease. Bcl-w is a prosurvival member of the Bcl-2 protein family, and thus protects cells from γ-irradiation. Recent reports suggest that Bcl-w can be upregulated in gastric cancer cells in a manner associated with the infiltrative (diffuse) types of the tumor. An analysis of Bcl-w function consistently revealed that Bcl-w can also promote the migratory and invasive potentials of gastric cancer cells. While it was shown that Bcl-w increases the invasiveness of cancer cells by sequentially inducing PI3K, Akt, SP1, and MMP-2, cellular components involved in Bcl-w-induced cell migration remain to be determined. This was the reason why we undertook the present study, which shows that FAK is a critical mediator of the cell migration induced by Bcl-w

Additional details

Publishing Information

Publisher
KNS
Imprint Place
Daejeon (Korea, Republic of)
Imprint Title
Proceedings of the KNS spring meeting
Imprint Pagination
[1 CD-ROM]
Journal Page Range
[2 p.]

Conference

Title
2008 spring meeting of the KNS
Dates
29-30 May 2008
Place
Kyeongju (Korea, Republic of)

INIS

Country of Publication
Korea, Republic of
Country of Input or Organization
Korea, Republic of
INIS RN
39109315
Subject category
RADIOLOGY AND NUCLEAR MEDICINE;
Resource subtype / Literary indicator
Conference, Non-conventional Literature
Quality check status
Yes
Descriptors DEI
ADHESION; MIGRATION; NEOPLASMS; PHOSPHORYLATION; PROTEINS; TUMOR CELLS;
Descriptors DEC
ANIMAL CELLS; CHEMICAL REACTIONS; DISEASES; ORGANIC COMPOUNDS;

Optional Information

Lead record
a3qcy-yt137
Notes
7 refs, 2 figs