Abstract
von Hippel–Lindau disease is a hereditary cancer syndrome. Mutations in the VHL tumor suppressor gene predispose individuals to highly vascularized tumors. However, VHL-deficient mice die in utero due to a lack of vascularization in the placenta. To resolve the contradiction, we cloned the Drosophila VHL homologue (d-VHL) and studied its function. It showed an overall 50% similarity to the human counterpart and 76% similarity in the crucial functional domain: the elongin C binding site. The putative d-VHL protein can bind Drosophila elongin C in vitro. During embryogenesis, d-VHL is expressed in the developing tracheal regions where tube outgrowth no longer occurs. Reduced d-VHL activity (using RNA interference methodology) caused breakage of the main vasculature accompanied by excessive looping of smaller branches, whereas over-expression caused a general lack of vasculature. Importantly, human VHL can induce the same gain-of-function phenotypes. VHL is likely involved in halting cell migration at the end of vascular tube outgrowth. Loss of VHL activity can therefore lead to disruption of major vasculature (as in the mouse embryo), which requires precise cell movement and tube fusion, or ectopic outgrowth from existing secondary vascular branches (as in the adult tumors).
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References
Aso T and Conrad MN . 1997 Biochem Biophys Res Comm 241: 334–340
Beroud C, Joly D, Gallou C, Staroz F, Orfanelli MT and Junien C . 1998 Nucleic Acids Res 26: 256–258
Blankenship C, Naglich JG, Whaley JM, Seizinger B and Kley N . 1999 Oncogene 18: 1529–1535
Carmeliet P, Lampugnani MG, Moons L, Breviario F, Compernolle V, Bono F, Balconi G, Spagnuolo R, Oostuyse B, Dewerchin M, Zanetti A, Angellilo A, Mattot V, Nuyens D, Lutgens E, Clotman F, de Ruiter MC, Gittenberger-de Groot A, Poelmann R, Lupu F, Herbert JM, Collen D and Dejana E . 1999 Cell 98: 147–157
Crews ST . 1998 Genes Dev 12: 607–620
Fire A, Xu S, Montgomery MK, Kostas SA, Driver SE and Mello CC . 1998 Nature 391: 806–811
Folkman J and Shing Y . 1992 J Biol Chem 267: 10931–10934
Gnarra JR, Duan DR, Weng Y, Humphrey JS, Chen DY, Lee S, Pause A, Dudley CF, Latif E, Kuzmin I, Schmidt L, Duh FM, Stackhouse T, Chen F, Kishida T, Wei MH, Lerman MI, Zbar B, Klausner RD and Linehan WM . 1996 Biochim Biophys Acta 1242: 201–210
Gnarra JR, Tory K, Weng Y, Schmidt L, Wei MH, Li H, Latif F, Liu S, Chen F, Duh FM et al. 1994 Nature Genetics 7: 85–90
Gnarra JR, Ward JM, Porter FD, Wagner JR, Devor DE, Grinberg A, Emmert-Buck MR, Westphal H, Klausner RD and Linehan WM . 1997 Proc Natl Acad Sci 94: 9102–9107
Henikoff S and Henikoff JG . 1992 Proc Natl Acad Sci 89: 10915–10919
Hsu T, Gogos JA, Kirsh SA and Kafatos FC . 1992 Science 257: 1946–1950
Iliopoulos O, Ohh M and Kaelin Jr WG . 1998 Proc Natl Acad Sci 95: 11661–11666
Isaac DD and Andrew DJ . 1996 Gene Dev 10: 103–117
Iwai K, Yamanaka K, Kamura T, Minato N, Conaway RC, Conaway JW, Klausner RD and Pause A . 1999 Proc Natl Acad Sci 96: 12436–12441
Jarecki J, Johnson E and Krasnow MA . 1999 Cell 99: 211–220
Kaelin Jr WG and Maher ER . 1998 Trends Genet 14: 423–426
Kamura T, Koepp DM, Conrad MN, Skowyra D, Moreland RJ, Iliopoulos O, Lane WS, Kaelin Jr WG, Elledge SJ, Conaway RC, Harper JW and Conaway JW . 1999 Science 284: 657–661
Kennerdell JR and Carthew RW . 1998 Cell 95: 1017–1026
Kibel A, Iliopoulos O, DeCaprio JA and Kaelin Jr WG . 1995 Science 269: 1444–1446
Koochekpour S, Jeffers M, Wang PH, Gong C, Taylor GA, Roessler LM, Stearman R, Vasselli JR, Stetler-Stevenson WG, Kaelin Jr WG, Lineham WM, Klausner RD, Gnarra JR and Vande Woude GF . 1999 Mol Cell Biol 19: 5902–5912
Latif F, Tory K, Gnarra J, Yao M, Duh FM, Orcutt ML, Stackhouse T, Kuzmin I, Modi W and Geil L . 1993 Science 260: 1317–1320
Leung DW, Cachianes G, Kuang WJ, Goeddel DV and Ferrara N . 1989 Science 246: 1306–1309
Lisztwan J, Imbert G, Wirbelauer C, Gstaiger M and Krek W . 1999 Genes Dev 13: 1822–1833
Liu Y and Montell DJ . 1999 Development 126: 1869–1878
Mantrova EY and Hsu T . 1998 Genes Dev 12: 1166–1175
Maxwell PH, Dachs GU, Gleadle JM, Nicholls LG, Harris AL, Stratford IJ, Hankinson O, Pugh CW and Ratcliffe PJ . 1997 Proc Natl Acad Sci USA 94: 8104–8109
Maxwell PH, Wiesener MS, Chang GW, Clifford SC, Vaux EC, Cockman ME, Wykoff CC, Pugh CW, Maher ER and Ratcliffe PJ . 1999 Nature 399: 271–275
Okuda H, Hirai S, Takaki Y, Kamada M, Baba M, Sakai N, Kishida T, Kaneko S, Yao M, Ohno S and Shuin T . 1999 Biochem Biophys Res Comm 263: 491–497
Pardanaud L and Dieterlen-Lievre F . 1993 Cell Adhesion Comm 1: 151–160
Pardue ML . 1986 Drosophila, A Practical Approach Roberts DB ed IRL Press Oxford, England pp111–137
Pause A, Peterson B, Schaffar G, Stearman R and Klausner RD . 1999 Proc Natl Acad Sci USA 96: 9533–9538
Risau W . 1997 Nature 386: 671–674
Samakovlis C, Hacohen N, Manning G, Sutherland DC, Guillemin K and Krasnow MA . 1996 Development 122: 1395–1407
Schoenfeld A, Davidowitz EJ and Burk RD . 1998 Proc Natl Acad Sci USA 95: 8817–8822
Shweiki D, Itin A, Soffer D and Keshet E . 1992 Nature 359: 843–845
Spradling AC . 1986 Drosophila, A Practical Approach Roberts DB ed IRL Press Oxford, England pp175–197
Stebbins CE, Kaelin Jr WG and Pavletich NP . 1999 Science 284: 455–461
Stroumbakis ND, Li Z and Tolias PP . 1994 Gene 143: 171–177
Sutherland D, Samakovlis C and Krasnow MA . 1996 Cell 87: 1091–1101
Tanaka-Matakatsu M, Uemura T, Oda H, Takeichi M and Hayashi S . 1996 Development 122: 3697–3705
Wang GL, Jiang BH, Rue EA and Semenza GL . 1995 Proc Natl Acad Sci USA 92: 5510–5514
Wilk R, Weizman I and Shilo BZ . 1996 Gene Dev 10: 93–102
Wingrove JA and O'Farrell PH . 1999 Cell 98: 105–114
Acknowledgements
The authors are grateful to B-Z Shilo for the anti-Trh antibody and GM Technau, DS Watson and J Brieger for comments on the manuscript. B Adryan is supported by a stipend from Studienstiftung des Deutschen Volkes (German National Merit Foundation). This work is supported by grants from Deutsche Forschungsgemeinschaft (German Research Council) and Sonderforschungsbereich (Research Center Grant) 519 (Project C) to HJH Decker; National Cancer Institute (P01CA78582) to TS Papas; and National Institutes of Health (GM57843) to T Hsu.
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Adryan, B., Decker, HJ., Papas, T. et al. Tracheal development and the von Hippel–Lindau tumor suppressor homolog in Drosophila. Oncogene 19, 2803–2811 (2000). https://doi.org/10.1038/sj.onc.1203611
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DOI: https://doi.org/10.1038/sj.onc.1203611
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