review
Advances in understanding the pathogenesis of familial thrombocythaemia
Prof. Luigi M. Larocca, Istituto di Anatomia Patologica, Università Cattolica, Largo Gemelli 8, 00168 Roma, Italy. E-mail: [email protected]
Summary
Familial thrombocytosis can be divided into two broad categories. The first includes inherited syndromes that affect only the megakaryocytic lineage with Mendelian inheritance, high penetrance and polyclonal haematopoiesis. The second category includes inherited predisposition to true Philadelphia-negative myeloproliferative neoplasms (MPN) and is characterized by low penetrance, clonal haematopoiesis and presence of somatic mutations such as JAK2 V617F. It must be underlined that these two categories represent two well separate entities, with different patterns of proliferation and different transmission modalities. This review will focus on the molecular pathogenesis of hereditary thrombocytosis, underlining those clinical pictures that are specifically associated with mutations in the genes of thrombopoietin or in its receptor. Moreover, we propose an approach for the diagnosis and therapy of these syndromes.
References
- Aydogan, T., Kanbay, M., Alici, O. & Kosar, A. (2006) Incidence and etiology of thrombocytosis in an adult Turkish population. Platelets, 17, 328–331.
- Ballmaier, M. & Germeshausen, M. (2009) Advances in the understanding of congenital amegakaryocytic thrombocytopenia. British Journal of Haematology, 146, 3–16.
- Baxter, E.J., Scott, L.M., Campbell, P.J., East, C., Fourouclas, N., Swanton, S., Vassiliou, G.S., Bench, A.J., Boyd, E.M., Curtin, N., Scott, M.A., Erber, W.N & Green, A.R.; Cancer Genome Project (2005) Acquired mutation of the tyrosine kinase JAK2 in human myeloproliferative disorders. Lancet, 365, 1054–1061.
- Beer, P.A., Campbell, P.J., Scott, L.M., Bench, A.J., Erber, W.N., Bareford, D., Wilkins, B.S., Reilly, J.T., Hasselbalch, H.C., Bowman, R., Wheatley, K., Buck, G., Harrison, C.N. & Green, A.R. (2008) MPL mutations in myeloproliferative disorders: analysis of the PT-1 cohort. Blood, 112, 141–149.
- Bellanné-Chantelot, C., Chaumarel, I., Labopin, M, Bellanger, F., Barbu, V., De Toma, C., Delhommeau, F., Casadevall, N., Vainchenker, W., Thomas, G. & Najman, A. (2006) Genetic and clinical implications of the Val617Phe JAK2 mutation in 72 families with myeloproliferative disorders. Blood, 108, 346–352.
- Carver-Moore, K., Broxmeyer, H.E., Luoh, S.M., Cooper, S., Peng, J., Burstein, S.A., Moore, M.W. & de Sauvage, F.J. (1996) Low levels of erythroid and myeloid progenitors in thrombopoietin-and c-mpl-deficient mice. Blood, 88, 803–808.
- Cazzola, M. (2008) Molecular basis of thrombocytosis. Haematologica, 93, 646–648.
- Cazzola, M & Skoda, R.C. (2000) Translational pathophysiology: a novel molecular mechanism of human disease. Blood, 95, 3280–3288.
- Chaligné, R., Tonetti, C., Besancenot, R., Roy, L., Marty, C., Mossuz, P., Kiladjian, J.J., Socié, G., Bordessoule, D., Le Bousse-Kerdilès, M.C., Vainchenker, W. & Giraudier, S. (2008) New mutations of MPL in primitive myelofibrosis: only the MPL W515 mutations promote a G1/S-phase transition. Leukemia, 22, 1557–1566.
- Cohen, N., Almoznino-Sarafian, D., Weissgarten, J., Alon, I., Zaidenstein, R., Dishi, V., Rahimi-Levene, N., Fried, K., Modai, D. & Golik, A. (1997) Benign familial microcytic thrombocytosis with autosomal dominant transmission. Clinical Genetics, 52, 47–50.
- Dame, C & Sutor, A.H. (2005) Primary and secondary thrombocytosis in childhood. British Journal of Haematology, 129, 165–177.
- Deutsch, V.R. & Torner, A. (2006) Megakaryocyte development and platelet production. British Journal of Haematology, 134, 453–466.
- Ding, J., Komatsu, H., Wakita, A., Kato-Uranishi, M., Ito, M., Satoh, A., Tsuboi, K., Nitta, M., Miyazaki, H., Iida, S. & Ueda, R. (2004) Familial essential thrombocythemia associated with a dominant-positive activating mutation of the c-MPL gene, which encodes for the receptor for thrombopoietin. Blood, 103, 4198–4200.
- Ding, J., Komatsu, H., Iida, S., Yano, H., Kusumoto, S., Inagaki, A., Mori, F., Ri, M., Ito, A., Wakita, A., Ishida, T., Nitta, M. & Ueda, R. (2009) The Asn505 mutation of the c-MPL gene, which causes familial essential thrombocythemia, induces autonomous homodimerization of the c-Mpl protein due to strong amino acid polarity. Blood, 114, 3325–3328.
- Dror, Y. & Blanchette, V.S. (1999) Essential thrombocythaemia in children. British Journal Haematology, 107, 691–698.
- El-Harith, el-H.A., Roesl, C., Ballmaier, M., Germeshausen, M., Frye-Boukhriss, H., von Neuhoff, N., Becker, C., Nürnberg, G., Nürnberg, P., Ahmed, M.A., Hübener, J., Schmidtke, J., Welte, K. & Stuhrmann, M. (2009) Familial thrombocytosis caused by the novel germ-line mutation p.Pro106Leu in the MPL gene. British Journal of Haematology, 144, 185–194.
- Eyster, M. E., Saletans, L., Rabellino, E.M., Kaeanas, A., McDonald, T.P., Locke, L.R. & Luderer, A.J. (1986) Familial essential thrombocythemia. American Journal of Medicine, 80, 497–502.
- Fernandez-Robles, E., Vermylen, C., Martiat, P., Ninane, J. & Cornu, G. (1990) Familial essential thrombocythemia. Pediatric Hematology and Oncology, 7, 373–376.
- Finazzi, G. & Barbui, T. (2008) Evidence and expertise in the management of polycythemia vera and essential thrombocythemia. Leukemia, 22, 1494–1502.
- Geddis, A.E. (2010) Megakaryopoiesis. Seminars in Hematology, 47, 212–219.
- Ghilardi, N. & Skoda, R.C. (1999) A single-base deletion in the thrombopoietin (TPO) gene causes familial essential thrombocytosis through a mechanism of more efficient translation of TPO mRNA. Blood, 94, 1480–1482.
- Ghilardi, N., Wiestner, A. & Skoda, R.C. (1998) Thrombopoietin production is inhibited by a translational mechanism. Blood, 92, 4023–4030.
- Ghilardi, N., Wiestner, A., Kikuchi, M., Oshaka, A. & Skoda, R.C. (1999) Hereditary thrombocythemia in a Japanese family is caused by a novel point mutation in the thrombopoietin gene. British Journal of Haematology, 107, 310–316.
- Graziano, C., Carone, S., Panza, E., Marino, F., Magini, P., Romeo, G., Pession, A. & Seri, M. (2009) Association of hereditary thrombocythemia and distal limb defects with a thrombopoietin gene mutation. Blood, 114, 1655–1657.
- Griesshammer, M., Bangerter, M., Sauer, T., Wennauer, R., Bergmann, L. & Heimpel, H. (1999) Aetiology and clinical significance of thrombocytosis: analysis of 732 patients with an elevated platelet count. Journal of Internal Medicine, 245, 295–300.
- Griesshammer, M., Kubanek, B., Beneke, H., Heimpel, H., Bangerter, M., Bergmann, L. & Schrezenmeier, H. (2000) Serum erythropoietin and thrombopoietin levels in patients with essential thrombocythaemia. Leukaemia & Lymphoma, 36, 533–538.
- Gurney, A.L., Carver-Moore, K., de Sauvage, F.J. & Moore, M.W. (1994) Thrombocytopenia in c-mpl-deficient mice. Science, 265, 1445–1447.
- Higgs, J.R., Sadek, I., Neumann, P.E., Ing, V.W., Renault, N.K., Berman, J.N. & Greer, W. (2008) Familial essential thrombocythemia with spontaneous megakaryocyte colony formation and acquired JAK2 mutations. Leukemia, 22, 1551–1556.
- James, C., Ugo, V., Le Couedic, J.P., Staerk, J., Delhommeau, F., Lacout, C., Garçon, L., Raslova, H., Berger, R., Bennaceur-Griscelli, A., Villeval, J.L., Constantinescu, S.N., Casadevall, N. & Vainchenker, W. (2005) A unique clonal JAK2 mutation leading to constitutive signalling causes polycythaemia vera. Nature, 434, 1144–1148.
- Jones, A.V., Chase, A., Silver, R.T., Oscier, D., Zoi, K., Wang, Y.L., Cario, H., Pahl, H.L., Collins, A., Reiter, A., Grand, F. & Cross, N.C. (2009) JAK2 haplotype is a major risk factor for the development of myeloproliferative neoplasms. Nature Genetics, 41, 446–449.
- Jorgensen, M.J., Raskind, W.H., Wolff, J.F., Bachrach, H.R. & Kaushansky, K. (1998) Familial thrombocytosis associated with overproduction of thrombopoietin due to a novel splice donor site mutation. Blood (ASH Meeting Abstracts), 92, 205. Abstract # 834.
- Kaser, A., Brandacher, G., Steurer, W., Kaser, S., Offner, F.A., Zoller, H., Theurl, I., Widder, W., Molnar, C., Ludwiczek, O., Atkins, M.B., Mier, J.W. & Tilg, H. (2001) Interleukin-6 stimulates thrombopoiesis through thrombopoietin: role in inflammatory thrombocytosis. Blood, 98, 2720–2725.
- Kaushansky, K. (2005) The molecular mechanisms that control thrombopoiesis. Journal of Clinical Investigation, 115, 3339–3347.
- Kaushansky, K. (2009) Molecular mechanisms of thrombopoietin signalling. Journal of Thrombosis and Haemostasis, 7(Suppl 1), 235–238.
- Kaushansky, K., Lok, S., Holly, R.D., Broudy, V.C., Lin, N., Bailey, M.C., Forstrom, M.C., Buddle, M. M., Oort, P.J., Hagen, F. S., Roth, G. J., Papayannopoulou, T. & Foster, D. C. (1994) Promotion of megakaryocyte progenitor expansion and differentiation by the c-Mpl ligand thrombopoietin. Nature, 369, 568–571.
- Kikuchi, M., Tayama, T., Hayakawa, H., Takahashi, I., Hoshino, H. & Ohsaka, A. (1995) Familial thrombocytosis. British Journal of Haematology, 89, 900–902.
- Kondo, T., Okabe, M., Sanada, M., Kurosawa, M., Suzuki, S., Kobayashi, M., Hosokawa, M. & Asaka, M. (1998) Familial essential thrombocythemia associated with one base deletion in the 5′-untranslated region of the thrombopoietin gene. Blood, 92, 1091–1096.
- Kralovics, R., Passamonti, F., Buser, A.S., Teo, S.S., Tiedt, R., Passweg, J.R., Tichelli, A., Cazzola, M. & Skoda, R.C. (2005) A gain-of-function mutation of JAK2 in myeloproliferative disorders. New England Journal of Medicine, 352, 1779–1790.
- Kuter, D.J. (2007) New thrombopoietic growth factors. Blood, 109, 4607–4616.
- Kuter, D.J. & Rosenberg, R.D. (1995) The reciprocal relationship of thrombopoietin (c-Mpl ligand) to changes in the platelet mass during busulfan-induced thrombocytopenia in the rabbit. Blood, 85, 2720–2730.
- Kuter, D.J., Beeler, D.L. & Rosenberg, R.D. (1994) The purification of megapoietin: a physiological regulator of megakaryocyte growth and platelet production. Proceedings of the National Academy of Sciences of the United States of America, 91, 11104–11108.
- Landgren, O., Goldin, L.R, Kristinsson, S.Y, Helgadottir, E.A., Samuelsson, J. & Björkholm, M. (2008) Increased risks of polycythemia vera, essential thrombocythemia, and myelofibrosis among 24,577 first-degree relatives of 11,039 patients with myeloproliferative neoplasms in Sweden. Blood, 112, 2199–21204.
- Levine, R.L., Wadleigh, M., Cools, J., Ebert, B.L., Wernig, G., Huntly, B.J., Boggon, T.J., Wlodarska, I., Clark, J.J., Moore, S., Adelsperger, J., Koo, S., Lee, J.C., Gabriel, S., Mercher, T., D’Andrea, A., Fröhling, S., Döhner, K., Marynen, P., Vandenberghe, P., Mesa, R.A., Tefferi, A., Griffin, J.D., Eck, M.J., Sellers, W.R., Meyerson, M., Golub, T.R., Lee, S.J. & Gilliland, D.G. (2005) Activating mutation in the tyrosine kinase JAK2 in polycythemia vera, essential thrombocythemia, and myeloid metaplasia with myelofibrosis. Cancer Cell, 7, 387–397.
- Liu, K., Kralovics, R., Rudzki, Z., Grabowska, B., Buser, A.S, Olcaydu, D., Gisslinger, H., Tiedt, R., Frank, P., Okoñ, K., van der Maas, A.P. & Skoda, R.C. (2008) A de novo splice donor mutation in the thrombopoietin gene causes hereditary thrombocythemia in a Polish family. Haematologica, 93, 706–714.
- Liu, K., Martini, M., Rocca, B, Amos, C.I., Teofili, L., Giona, F., Ding, J., Komatsu, H., Larocca, L.M. & Skoda, R.C. (2009) Evidence for a founder effect of the MPL-S505N mutation in eight Italian pedigrees with hereditary thrombocythemia. Haematologica, 94, 1368–1374.
- Marty, C., Chaligné, R., Lacout, C., Constantinescu, S.N., Vainchenker, W. & Villeval, J.L. (2009) Ligand-independent thrombopoietin mutant receptor requires cell surface localization for endogenous activity. The Journal of Biological Chemistry, 284, 11781–11791.
- McIntosh, B. & Kaushansky, K. (2008) Marrow stromal production of thrombopoietin is regulated by transcriptional mechanisms in response to platelet products. Experimental Hematology, 36, 799–806.
- Moliterno, A. R., Hankins, W. D. & Spivak, J. L. (1998) Impaired expression of the thrombopoietin receptor by platelets from patients with polycythemia vera. New England Journal of Medicine, 338, 572–580.
- Moliterno, A.R., Williams, D.M, Gutierrez-Alamillo, L.I., Salvatori, R., Ingersoll, R.G. & Spivak, J.L. (2004) Mpl Baltimore: a thrombopoietin receptor polymorphism associated with thrombocytosis. Proceedings of the National Academy of Sciences of the United States of America, 101, 11444–11447.
- Oh, S.T., Simonds, E.F., Jones, C., Hale, M.B., Goltsev, Y., Gibbs, Jr, K.D., Merker, J.D., Zehnder, J.L., Nolan, G.P. & Gotlib, J. (2010) Novel mutations in the inhibitory adaptor protein LNK drive JAK-STAT signaling in patients with myeloproliferative neoplasms. Blood, 116, 988–992.
- Olcaydu, D., Harutyunyan, A., Jäger, R., Berg, T., Gisslinger, B., Pabinger, I., Gisslinger, H. & Kralovics, R. (2009) A common JAK2 haplotype confers susceptibility to myeloproliferative neoplasms. Nature Genetics, 41, 450–454.
- Onishi, M., Mui, A.L., Morikawa, Y., Cho, L., Kinoshita, S., Nolan, G.P., Gorman, D.M., Miyajima, A. & Kitamura, T. (1996) Identification of an oncogenic form of the thrombopoietin receptor MPL using retrovirus-mediated gene transfer. Blood, 88, 1399–1406.
- Pardanani, A.D., Levine, R.L., Lasho, T., Pikman, Y., Mesa, R.A., Wadleigh, M., Steensma, D.P., Elliott, M.A., Wolanskyj, A.P., Hogan, W.J., McClure, R.F., Litzow, M.R., Gilliland, D.G. & Tefferi, A. (2006) MPL515 mutations in myeloproliferative and other myeloid disorders: a study of 1182 patients. Blood, 108, 3472–3476.
- Pecquet, C., Staerk, J., Chaligné, R., Goss, V., Lee, K.A., Zhang, X., Rush, J., Van Hees, J., Poirel, H.A., Scheiff, J.M., Vainchenker, W., Giraudier, S., Polakiewicz, R.D. & Constantinescu, S.N. (2010) Induction of myeloproliferative disorder and myelofibrosis by thrombopoietin receptor W515 mutants is mediated by cytosolic tyrosine 112 of the receptor. Blood, 115, 1037–1048.
- Percy, M.J. & Rumi, E. (2009) Genetic origins and clinical phenotype of familial and acquired erythrocytosis and thrombocytosis. American Journal of Hematology, 84, 46–54.
- Pikman, Y., Lee, B.H., Mercher, T., McDowell, E., Ebert, B.L., Gozo, M., Cuker, A., Wernig, G., Moore, S., Galinsky, I., DeAngelo, D.J., Clark, J.J., Lee, S.J., Golub, T.R., Wadleigh, M., Gilliland, D.G. & Levine, R.L. (2006) MPLW515L is a novel somatic activating mutation in myelofibrosis with myeloid metaplasia. PLoS Medicine, 3, e270.
- Qian, S., Fu, F., Li, W., Chen, Q. & deSauvage, F.J. (1998) Primary role of the liver in thrombopoietin production shown by tissue-specific knockout. Blood, 92, 2189–2191.
- Robins, E.B. & Niazi, M. (2008) Essential thrombocythemia in a child with elevated thrombopoietin concentrations and skeletal anomalies. Pediatric Blood & Cancer, 50, 859–861.
- Rumi, E. (2008) Familial chronic myeloproliferative disorders: the state of the art. Hematological Oncology, 26, 131–138.
- Sabath, D.F., Kaushansky, K. & Broudy, V.C. (1999) Deletion of the extracellular membrane-distal cytokine receptor homology module of Mpl results in constitutive cell growth and loss of thrombopoietin binding. Blood, 94, 365–367.
- Saur, S.J., Sangkhae, V., Geddis, A.E., Kaushansky, K. & Hitchcock, I.S. (2010) Ubiquitination and degradation of the thrombopoietin receptor c-Mpl. Blood, 115, 1254–1263.
- de Sauvage, F.J., Hass, P.E., Spencer, S.D., Malloy, B.E., Gurney, A.L., Spencer, S.A., Darbonne, W.C., Henzel, W.J., Wong, S.C., Kuang, W.J., Oles, K.J., Hultgren, B., Solberg, L.A., Goeddel, D.V. & Eaton, D.L. (1994) Stimulation of megakaryocytopoiesis and thrombopoiesis by the c-Mpl ligand. Nature, 369, 533–538.
- Schafer, A.I. (2001) Thrombocytosis and thrombocythemia. Blood Reviews, 15, 159–166.
- Schafer, A.I. (2004) Thrombocytosis. New England Journal of Medicine, 350, 1211–1219.
- Schlemper, R.J., van der Maas, A.P.C. & Eikenboom, J.C.J. (1994) Familial essential thrombocythemia: clinical characteristics of 11 cases in one family. Annals of Hematology, 68, 153–158.
- Scott, L.M., Tong, W., Levine, R.L., Scott, M.A., Beer, P.A., Stratton, M.R., Futreal, P.A., Erber, W.N., McMullin, M.F., Harrison, C.N., Warren, A.J., Gilliland, D.G., Lodish, H.F. & Green, A.R. (2007) JAK2 exon 12 mutations in polycythemia vera and idiopathic erythrocytosis. New England Journal of Medicine, 356, 459–468.
-
Skoda, R.C. (2009) Thrombocytosis.
Hematology/the Education Program of the American Society of Hematology, 159–167.
10.1182/asheducation-2009.1.159 Google Scholar
- Skoda, R. & Prchal, J.T. (2005) Lesson from familial myeloproliferative disorders. Seminars in Hematology, 42, 266–273.
- Slee, P.H., van Everdingen, J.J., Geraedts, J.P., te Velde, J. & den Ottolander, G.J. (1981) Familial myeloproliferative disease Hematological and cytogenetic studies. Acta Medica Scandinavica, 210, 321–327.
- Sohma, Y., Akahori, H., Seki, N., Hori, T., Ogami, K., Kato, T., Shimada, Y., Kawamura, K. & Miyazaki, H. (1994) Molecular cloning and chromosomal localization of the human thrombopoietin gene. FEBS Letters, 353, 57–61.
- Souyri, M., Vigon, I., Penciolelli, J.F., Heard, J.M., Tambourin, P. & Wendling, F. (1990) A putative truncated cytokine receptor gene transduced by the myeloproliferative leukemia virus immortalizes hematopoietic progenitors. Cell, 63, 1137–1147.
- Staerk, J., Lacout, C., Sato, T., Smith, S.O., Vainchenker, W. & Constantinescu, S.N. (2006) An amphipathic motif at the transmembrane-cytoplasmic junction prevents autonomous activation of the thrombopoietin receptor. Blood, 107, 1864–1871.
- Stoffel, R., Wiestner, A. & Skoda, R.C. (1996) Thrombopoietin in thrombocytopenic mice: evidence against regulation at the mRNA level and for a direct regulatory role of platelets. Blood, 87, 567–573.
- Sungaran, R., Markovic, B. & Chong, B.H. (1997) Localization and regulation of thrombopoietin mRNa expression in human kidney, liver, bone marrow, and spleen using in situ hybridization. Blood, 89, 101–107.
- Sungaran, R., Chisholm, O.T, Markovic, B., Khachigian, L.M., Tanaka, Y. & Chong, B.H. (2000) The role of platelet alpha-granular proteins in the regulation of thrombopoietin messenger RNA expression in human bone marrow stromal cells. Blood, 95, 3094–3101.
- Tecuceanu, N., Dardik, R., Rabizadeh, E., Raanani, P. & Inbal, A. (2006) A family with hereditary thrombocythaemia and normal genes for thrombopoietin and c-Mpl. British Journal of Haematology, 135, 348–351.
- Tefferi, A., Hanson, C.A. & Inwards, D.J. (2005) How to interpret and pursue an abnormal complete blood cell count in adults. Mayo Clinic Proceedings, 80, 923–936.
- Teofili, L., Pierconti, F., Di Febo, A., Maggiano, N., Vianelli, N., Ascani, S., Rossi, E., Pileri, S., Leone, G., Larocca, L.M. & De Stefano, V. (2002) The expression pattern of c-mpl in megakaryocytes correlates with thrombotic risk in essential thrombocythemia. Blood, 100, 714–717.
- Teofili, L., Giona, F., Martini, M., Cenci, T., Guidi, F., Torti, L., Palumbo, G., Amendola, A., Foà, R. & Larocca, L.M. (2007a) Markers of myeloproliferative diseases in childhood polycythemia vera and essential thrombocythemia. Journal of Clinical Oncology, 25, 1048–1053.
- Teofili, L., Giona, F., Martini, M., Cenci, T., Guidi, F., Torti, L., Palumbo, G., Amendola, A., Leone, G., Foà, R. & Larocca, L.M. (2007b) The revised WHO diagnostic criteria for Ph-negative myeloproliferative diseases are not appropriate for the diagnostic screening of childhood polycythemia vera and essential thrombocythemia. Blood, 110, 3384–3386.
- Teofili, L., Foà, R., Giona, F. & Larocca, L.M. (2008) Childhood polycythemia vera and essentialthrombocythemia: does their pathogenesis overlap with that of adult patients? Haematologica, 93, 169–172.
- Teofili, L., Giona, F., Torti, L., Cenci, T., Ricerca, B.M., Rumi, C., Nunes, V., Foà, R., Leone, G., Martini, M. & Larocca, L.M. (2010) Hereditary thrombocytosis caused by MPLSer505Asn is associated with a high thrombotic risk, splenomegaly and progression to bone marrow fibrosis. Haematologica, 95, 65–70.
- Thiele, J., Kvasnicka, H.M., Facchetti, F., Franco, V., van der Walt, J. & Orazi, A. (2005) European consensus on grading bone marrow fibrosis and assessment of cellularity. Haematologica, 90, 1128–1132.
- Tiedt, R., Coers, J., Ziegler, S., Wiestner, A., Hao-Shen, H., Bornmann, C., Schenke, J., Karakhanova, S., de Sauvage, F.J., Jackson, C.W. & Skoda, R.C. (2009) Pronounced thrombocytosis in transgenic mice expressing reduced levels of Mpl in platelets and terminally differentiated megakaryocytes. Blood, 113, 1768–1777.
- Tong, W. & Lodish, H.F. (2004) Lnk inhibits Tpo-mpl signalling and Tpo-mediated megakaryocytopoiesis. The Journal of Experimental Medicine, 200, 569–580.
- Vannucchi, A.M., Antonioli, E., Guglielmelli, P., Pancrazzi, A., Guerini, V., Barosi, G., Ruggeri, M., Specchia, G., Lo-Coco, F., Delaini, F., Villani, L., Finotto, S., Ammatuna, E., Alterini, R., Carrai, V., Capaccioli, G, Di Lollo, S., Liso, V., Rambaldi, A., Bosi, A. & Barbui, T. (2008) Characteristics and clinical correlates of MPL 515W>L/K mutation in essential thrombocythemia. Blood, 112, 844–847.
- Vigon, I., Mornon, J.P., Cocault, L., Mitjavila, M.T., Tambourin, P., Gisselbrecht, S. & Souyri, M. (1992) Molecular cloning and characterization of MPL, the human homolog of the v-mpl oncogene: identification of a member of the hematopoietic growth factor receptor superfamily. Proceedings of the National Academy of Sciences of the United States of America, 89, 5640–5644.
- Wendling, F., Maraskovsky, E., Debili, N., Florindo, C., Teepe, M., Titeux, M., Methia, N., Breton-Gorius, J., Cosman, D. & Vainchenker, W. (1994) cMpl ligand is a humoral regulator of megakaryocytopoiesis. Nature, 369, 571–574.
- Wiestner, A., Schlemper, R..J, van der Maas, A.P. & Skoda, R.C. (1998) An activating splice donor mutation in the thrombopoietin gene causes hereditary thrombocythaemia. Nature Genetics, 18, 49–52.
- Wiestner, A., Padosch, S.A., Ghilardi, N., Cesar, J.M., Odriozola, J., Shapiro, A. & Skoda, R.C. (2000) Hereditary thrombocythaemia is a genetically heterogeneous disorder: exclusion of TPO and MPL in two families with hereditary thrombocythaemia. British Journal of Haematology, 110, 104–109.
- Williams, E.C. & Shahidi, N.T. (1991) Benign familial thrombocytosis. American Journal of Hematology, 37, 124–125.
- Zhao, R., Xing, S., Li, Z., Fu, X., Li, Q., Krantz, S.B. & Zhao, Z.J. (2005) Identification of an acquired JAK2 mutation in polycythemia vera. The Journal of Biological Chemistry, 280, 22788–22792.
Citing Literature
