Actin is a binding protein for angiogenin.

Hu, Guo‐fu; Strydom, Daniël J.; Fett, James W.; Riordan, James; Vallée, Bert L.

doi:10.1073/pnas.90.4.1217

Cited by 123 publications

(138 citation statements)

References 28 publications

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“…There have been a series of studies demonstrating the presence of one or more actin isoforms on the external cell surface. One or more actin isoform was found by several independent groups of researchers on the surface of lymphocytes (44,45), brain capillary endothelial cells (46), and bovine pulmonary endothelial cells (47)(48)(49)(50). Actin was also discovered as a cell surface binding site for plasminogen on endothelial cells (39), monocytoid cells, blood monocytes (34), and breast cancer cells (40).…”

Section: Discussionmentioning

confidence: 99%

Cell Surface-Dependent Generation of Angiostatin4.5

et al. 2004

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Angiostatin4.5 (AS4.5) is a naturally occurring human angiostatin isoform, consisting of plasminogen kringles 1-4 plus 85% of kringle 5 (amino acids Lys78 to Arg529). Prior studies indicate that plasminogen is converted to AS4.5 in a two-step reaction. First, plasminogen is activated to plasmin. Then plasmin undergoes autoproteolysis within the inner loop of kringle 5, which can be induced by a free sulfhydryl donor or an alkaline pH. We now demonstrate that plasminogen can be converted to AS4.5 in a cell membrane-dependent reaction. Actin was shown previously to be a surface receptor for plasmin(ogen). We now show that ␤-actin is present on the extracellular membranes of cancer cells (PC-3, HT1080, and MDA-MB231), and ␤-actin can mediate plasmin binding to the cell surface and autoproteolysis to AS4.5. In the presence of ␤-actin, no small moleculefree sulfhydryl donor is needed for generation of AS4.5. Antibodies to actin reduced membrane-dependent generation of AS4.5 by 70%. In a cell-free system, addition of actin to in vitro-generated plasmin resulted in stoichiometric conversion to AS4.5. Annexin II and ␣-enolase have been reported to be plasminogen receptors, but we did not demonstrate a role for these proteins in conversion of plasminogen to AS4.5. Our data indicate that membrane-associated ␤-actin, documented previously as a plasminogen receptor, is a key cell membrane receptor capable of mediating conversion of plasmin to AS4.5. This conversion may serve an important role in regulating tumor angiogenesis, invasion, and metastasis, and surface ␤-actin may also serve as a prognostic marker to predict tumor behavior.

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Section: Discussionmentioning

confidence: 99%

Cell Surface-Dependent Generation of Angiostatin4.5

et al. 2004

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“…It, like commercial actin preparations, binds tightly not only to bovine but also to mouse and human Ang (G.-F. Hu, personal communication). The demonstration that both actin and antiactin antibodies inhibit Ang-induced angiogenesis in the chicken embryo chorioallantoic membrane underscores the functional relevance of this interaction (16).…”

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confidence: 99%

“…It activates intracellular second-messenger pathways (12), supports tumor and endothelial cell adhesion (6,13), and undergoes nuclear translocation (14). A 42-kDa Ang-binding protein isolated from the surface of cultured bovine endothelial cells has been identified as a smooth muscle type of a-actin (15)(16)(17). It, like commercial actin preparations, binds tightly not only to bovine but also to mouse and human Ang (G.-F. Hu, personal communication).…”

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confidence: 99%

Angiogenin antagonists prevent tumor growth in vivo.

Olson

Fett

French

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

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A noncytotoxic neutralizing monoclonal antibody (mAb), 26-2F, to human angiogenin (Ang), a potent inducer of neovascularization, has been reported to prevent or delay the establishment of HT-29 human tumor xenografts in athymic mice. In the present study the tumor model was modified to increase sensitivity to Ang antagonists to facilitate further investigations and comparisons of their capacity to inhibit tumor growth. An increase in the percentage of tumor-free mice from 10-25% to 65% is observed in this modified model after treatment with mAb 26-2F. An additional neutralizing mAb, 36u, that interacts with a different epitope on Ang similarly prevents the appearance of tumors, both alone and in combination with mAb 26-2F. In those tumors that develop in mice treated with these agents, the number of vascular elements is reduced. Actin, an Ang antagonist that unlike the mAbs binds both human and mouse Ang, also prevents the establishment of tumors while exhibiting no toxic effects at daily doses > 50 times the molar amount of circulating mouse Ang. Ang antagonists also inhibit the appearance of tumors derived from two other Ang-secreting human tumor cell lines--i.e., A549 lung adenocarcinoma and HT-1080 fibrosarcoma. These results demonstrate that inhibition of the action of Ang is an effective therapeutic approach for the treatment of malignant disease.

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“…Angiogenin binds to endothelial cells (6,7), undergoes nuclear translocation, a process essential for its angiogenic activity (8)(9)(10)(11), and thereby induces a wide variety of responses including cell proliferation, activation of cellassociated proteases, and cell migration and invasion. Moreover, nuclear angiogenin in endothelial cells is necessary for angiogenesis induced by other angiogenic factors including vascular endothelial growth factor (VEGF), acidic and basic fibroblast growth factors, and epidermal growth factor (8).…”

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confidence: 99%

Angiogenin Regulation by Estradiol in Breast Tissue: Tamoxifen Inhibits Angiogenin Nuclear Translocation and Antiangiogenin Therapy Reduces Breast Cancer Growth In vivo

Nilsson

Abrahamsson

Dabrosin

2010

Clinical Cancer Research

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Purpose: Angiogenin, a 14.2-kDa polypeptide member of the RNase A superfamily, has potent angiogenic effects. Nuclear accumulation of angiogenin is essential for its angiogenic activity. Increased angiogenin expression has been associated with the transition of normal breast tissue into invasive breast carcinoma. In this article, we investigated whether estradiol (E 2 ) affected angiogenin in breast tissue.Experimental Design: We used microdialysis for sampling of extracellular angiogenin in vivo. In vitro cultures of whole normal breast tissue, breast cancer cells, and endothelial cells were used.Results: We show that extracellular angiogenin correlated significantly with E 2 in normal human breast tissue in vivo and that exposure of normal breast tissue biopsies to E 2 stimulated angiogenin secretion. In breast cancer patients, the in vivo angiogenin levels were significantly higher in tumors compared with the adjacent normal breast tissue. In estrogen receptor-positive breast cancer cells, E 2 increased and tamoxifen decreased angiogenin secretion. Moreover, E 2 -induced angiogenin derived from cancer cells significantly increased endothelial cell proliferation. Tamoxifen reversed this increase as well as inhibited nuclear translocation of angiogenin. In vivo, in experimental breast cancer, tamoxifen decreased angiogenin levels and decreased angiogenesis. Additionally, treating tumor-bearing mice with an antiangiogenin antibody resulted in tumor stasis, suggesting a role for angiogenin in estrogen-dependent breast cancer growth.Conclusion: Our results suggest previously unknown mechanisms by which estrogen and antiestrogen regulate angiogenesis in normal human breast tissue and breast cancer. This may be important for estrogendriven breast cancer progression and a molecular target for therapeutic interventions.

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Actin is a binding protein for angiogenin.

Cited by 123 publications

References 28 publications

Cell Surface-Dependent Generation of Angiostatin4.5

Cell Surface-Dependent Generation of Angiostatin4.5

Angiogenin antagonists prevent tumor growth in vivo.

Angiogenin Regulation by Estradiol in Breast Tissue: Tamoxifen Inhibits Angiogenin Nuclear Translocation and Antiangiogenin Therapy Reduces Breast Cancer Growth In vivo

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