Bax inhibitor 1 increases cell adhesion through actin polymerization: Involvement of calcium and actin binding
- Authors
- Lee, Geum-Hwa; Ahn, Taeho; Kim, Do-Sung; Park, Seoung Ju; Lee, Yong Chul; Yoo, Wan Hee; Jung, Sung Jun; Yang, Jae-Seong; Kim, Sanguk; Muhlrad, Andras; Seo, Young-Rok; Chae, Soo-Wan; Kim, Hyung-Ryong; Chae, Han-Jung
- Issue Date
- Apr-2010
- Publisher
- American Society for Microbiology
- Citation
- Molecular and Cellular Biology, v.30, no.7, pp 1800 - 1813
- Pages
- 14
- Indexed
- SCI
SCIE
SCOPUS
- Journal Title
- Molecular and Cellular Biology
- Volume
- 30
- Number
- 7
- Start Page
- 1800
- End Page
- 1813
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/175147
- DOI
- 10.1128/MCB.01357-09
- ISSN
- 0270-7306
1098-5549
- Abstract
- Bax inhibitor 1 (BI-1), a transmembrane protein with Ca2+ channel-like activity, has antiapoptotic and anticancer activities. Cells overexpressing BI-1 demonstrated increased cell adhesion. Using a proteomics tool, we found that BI-1 interacted with γ-actin via leucines 221 and 225 and could control actin polymerization and cell adhesion. Among BI-1 -/- cells and cells transfected with BI-1 small interfering RNA (siRNA), levels of actin polymerization and cell adhesion were lower than those among BI-1+/+ cells and cells transfected with nonspecific siRNA. BI-1 acts as a leaky Ca2+ channel, but mutations of the actin binding sites (L221A, L225A, and L221A/L225A) did not change intra-endoplasmic reticulum Ca2+, although deleting the C-terminal motif (EKDKKKEKK) did. However, store-operated Ca2+ entry (SOCE) is activated in cells expressing BI-1 but not in cells expressing actin binding site mutants, even those with the intact C-terminal motif. Consistently, actin polymerization and cell adhesion were inhibited among all the mutant cells. Compared to BI-1 +/+ cells, BI-1-/- cells inhibited SOCE, actin polymerization, and cell adhesion. Endogenous BI-1 knockdown cells showed a similar pattern. The C-terminal peptide of BI-1 (LMMLILAMNRKDKKKEKK) polymerized actin even after the deletion of four or six charged C-terminal residues. This indicates that the actin binding site containing L221 to D231 of BI-1 is responsible for actin interaction and that the C-terminal motif has only a supporting role. The intact C-terminal peptide also bundled actin and increased cell adhesion. The results of experiments with whole recombinant BI-1 reconstituted in membranes also coincide well with the results obtained with peptides. In summary, BI-1 increased actin polymerization and cell adhesion through Ca2+ regulation and actin interaction.
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