The cytoskeletal protein ezrin regulates EC proliferation and angiogenesis via TNF-α–induced transcriptional repression of cyclin A
Raj Kishore, Gangjian Qin, Corinne Luedemann, Evelyn Bord, Allison Hanley, Marcy Silver, Mary Gavin, David Goukassain, Douglas W. Losordo
Raj Kishore, Gangjian Qin, Corinne Luedemann, Evelyn Bord, Allison Hanley, Marcy Silver, Mary Gavin, David Goukassain, Douglas W. Losordo
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Research Article Vascular biology

The cytoskeletal protein ezrin regulates EC proliferation and angiogenesis via TNF-α–induced transcriptional repression of cyclin A

Abstract

TNF-α modulates EC proliferation and thereby plays a central role in new blood vessel formation in physiologic and pathologic circumstances. TNF-α is known to downregulate cyclin A, a key cell cycle regulatory protein, but little else is known about how TNF-α modulates EC cell cycle and angiogenesis. Using primary ECs, we show that ezrin, previously considered to act primarily as a cytoskeletal protein and in cytoplasmic signaling, is a TNF-α–induced transcriptional repressor. TNF-α exposure leads to Rho kinase–mediated phosphorylation of ezrin, which translocates to the nucleus and binds to cell cycle homology region repressor elements within the cyclin A promoter. Overexpression of dominant-negative ezrin blocks TNF-α–induced modulation of ezrin function and rescues cyclin A expression and EC proliferation. In vivo, blockade of ezrin leads to enhanced transplanted EC proliferation and angiogenesis in a mouse hind limb ischemia model. These observations suggest that TNF-α regulates angiogenesis via Rho kinase induction of a transcriptional repressor function of the cytoskeletal protein ezrin and that ezrin may represent a suitable therapeutic target for processes dependent on EC proliferation.

Authors

Raj Kishore, Gangjian Qin, Corinne Luedemann, Evelyn Bord, Allison Hanley, Marcy Silver, Mary Gavin, David Goukassain, Douglas W. Losordo

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Figure 7

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DN ezrin–transfected HUVECs facilitate angiogenesis in ischemic hind lim...
DN ezrin–transfected HUVECs facilitate angiogenesis in ischemic hind limb. HUVECs transfected with WT or DN ezrin and labeled with DiI were injected into the ischemic muscle. A BrdU micropump was implanted at the time of surgery. (A) Representative pictures of laser Doppler imaging showing that at 7 days after operation the ratio of blood flow in the ischemic (blue arrows) versus nonischemic (red arrow) limb was improved in mice receiving DN ezrin–transfected HUVECs compared with those receiving an equal number of transplanted ECs transfected with WT ezrin. (B) Quantification of postsurgery blood flow in ischemic versus control limbs obtained from 12 mice in each group. *P < 0.02.