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  • 1
    Raisz LG 1992 Mechanisms and regulation of bone resorption by osteoclastic cells. In: CoeFL, FavusMJ (eds.) Disorders of Bone; Mineral Metabolism. Raven Press, New York, NY, U.S.A., pp. 287311
  • 2
    Hall TJ, Chambers TJ 1996 Molecular aspects of osteoclast function. Inflamm Res 45: 19.
  • 3
    Reddy SV, Roodman GD 1998 Control of osteoclast differentiation. Crit Rev Eukaryot Gene Expr 8: 117.
  • 4
    Odgren PR, Hermey DC, Popoff SN, Marks SC Jr 1997 Cellular and molecular strategies for studying the regulation of bone resorption using the toothless (osteopetrotic) mutation in the rat. Histol Histopathol 12: 11511157.
  • 5
    Wang ZQ, Ovitt C, Grigoriadis AE, Mohle-Steinlein U, Ruther U, Wagner EF 1992 Bone and haematopoietic defects in mice lacking c-fos. Nature 360: 741745.
  • 6
    Tondravi MM, McKercher SR, Anderson K, Erdmann JM, Quiroz M, Maki R, Teitelbaum SL 1997 Osteopetrosis in mice lacking haematopoietic transcription factor PU.1. Nature 385: 8184.
  • 7
    Franzoso G, Carlson L, Xing L, Poljak L, Shores EW, Brown KD, Leonardi A, Tran T, Boyce BF, Siebenlist U 1997 Requirement for NF-kappaB in osteoclast and B-cell development. Genes Dev 11: 34823496.
  • 8
    Steingrimsson E, Moore KJ, Lamoreux ML, Ferre-D'Amare AR, Burley SK, Zimring DC, Skow LC, Hodgkinson CA, Arnheiter H, Copeland NG, Jenkins NA 1994 Molecular basis of mouse microphthalmia mi mutations helps explain their developmental and phenotypic consequences. Nat Genet 8: 256263.
  • 9
    Moore KJ 1995 Insight into the microphthalmia gene. Trends Genet 11: 442448.
  • 10
    Tassabehji M, Newton VE, Read AP 1994 Waardenburg syndrome type 2 caused by mutations in the human microphthalmia MITF gene. Nat Genet 8: 251255.
  • 11
    Hodgkinson CA, Moore KJ, Nakayama A, Steingrimsson E, Copeland NG, Jenkins NA, Arnheiter H 1993 Mutations at the mouse microphthalmia locus are associated with defects in a gene encoding a novel basic-helix-loop-helix-zipper protein. Cell 74: 395404.
  • 12
    Hughes MJ, Lingrel JB, Krakowsky JM, Anderson KP 1993 A helix-loop-helix transcription factor-like gene is located at the mi locus. J Biol Chem 268: 2068720690.
  • 13
    Bentley NJ, Eisen T, Goding CR 1994 Melanocyte-specific expression of the human tyrosinase promoter: activation by the microphthalmia gene product and role of the initiator. Mol Cell Biol 14: 79968006.
  • 14
    Hemesath TJ, Steingrimsson E, McGill G, Hansen MJ, Vaught J, Hodgkinson CA, Arnheiter H, Copeland NG, Jenkins NA, Fisher DE 1994 microphthalmia, a critical factor in melanocyte development, defines a discrete transcription factor family. Genes Dev 8: 27702780.
  • 15
    Walke, DG 1972 Congenital osteopetrosis in mice cured by parabiotic union with normal siblings. Endocrinology 91: 916920.
  • 16
    Walker DG 1975 Bone resorption restored in osteopetrotic mice by transplants of normal bone marrow and spleen cells. Science 190: 784785.
  • 17
    Marks SC Jr, Walker DG 1981 The hematogenous origin of osteoclasts: Experimental evidence from osteopetrotic (microphthalmic) mice treated with spleen cells from beige mouse donors. Am J Anat 161: 110.
  • 18
    Thesingh CW, Scherft JP 1985 Fusion disability of embryonic osteoclast precursor cells and macrophages in the microphthalmic osteopetrotic mouse. Bone 6: 4352.
  • 19
    Green PM, Marshall MJ, Nisbet NW 1986 A study of osteoclasts on calvaria of normal and osteopetrotic (mi/mi) mice by vital staining with acridine orange. Br J Exp Pathol 67: 8593.
  • 20
    Holtrop ME, Cox KA, Eilon G, Simmons HA, Raisz LG 1981 The ultrastructure of osteoclasts in microphthalmic mice. Metab Bone Dis Relat Res 3: 123129.
  • 21
    Glowacki J, Cox KA, Wilcon S 1989 Impaired osteoclast differentiation in subcutaneous implants of bone particles in osteopetrotic mutants. Bone Miner 5: 271278.
  • 22
    Graves L, Jilka RL 1990 Comparison of bone and parathyroid hormone as stimulators of osteoclast development and activity in calvarial cell cultures from normal and osteopetrotic (mi/mi) mice. J Cell Physiol 145: 102109.
  • 23
    Minkin C 1982 Bone acid phosphatase: Tartrate-resistant acid phosphatase as a marker of osteoclast function. Calcif Tissue Int 34: 285290.
  • 24
    Chappard D, Alexandre C, Riffat G 1983 Histochemical identification of osteoclasts. Review of current methods and reappraisal of a simple procedure for routine diagnosis on undecalcified human iliac bone biopsies. Basic Appl Histochem 27: 7585.
  • 25
    Lindunger A, MacKay CA, Ek-Rylander, B, Andersson G, Marks S. C. Jr 1990 Histochemistry and biochemistry of tartrate-resistant acid phosphatase (TRAP) and tartrate-resistant acid adenosine triphosphatase (TrATPase) in bone, bone marrow and spleen: Implications for osteoclast ontogeny. Bone Miner 10: 109119.
  • 26
    Razdun HJ, Kreipe H, Parwaresch MR 1983 Tartrate-resistant acid phosphatase as a differentiation marker for the human mononuclear phagocyte system. Hematol Oncol 1: 321327.
  • 27
    Scheven BA, Kawilarang-De Haas EW, Wassenaar AM, Nijweide PJ 1986 Differentiation kinetics of osteoclasts in the periosteum of embryonic bones in vivo and in vitro. Anat Rec 214: 418423.
  • 28
    van de Wijngaert FP, Burger EH 1986 Demonstration of tartrate-resistant acid phosphatase in un-decalcified, glycolmethacrylate-embedded mouse bone: A possible marker for (pre)osteoclast identification. J Histochem Cytochem 34: 13171323.
  • 29
    Baron R, Neff L, Tran Van P, Nefussi JR, Vignery A 1986 Kinetic and cytochemical identification of osteoclast precursors and their differentiation into multinucleate osteoclasts. Am J Pathol 122: 363378.
  • 30
    Minkin C, Yu XH 1991 Calcitonin receptor expression and its regulation by 1 alpha-25-dihydroxyvitamin D3 during de novo osteoclast formation in organ cultures of fetal mouse metatarsals. Bone Miner 13: 191200.
  • 31
    Cassady AI, King AG, Cross NC, Hume DA 1993 Isolation and characterization of the genes encoding mouse and human type-5 acid phosphatase. Gene 130: 201207.
  • 32
    Akatsu T, Tamura T, Takahashi N, Udagawa N, Tanaka S, Sasaki T, Yamaguchi A, Nagata N, Suda T 1992 Preparation and characterization of a mouse osteoclast-like multinucleate cell population. J Bone Miner Res 7: 12971306.
  • 33
    Ikegame M, Rakopoulos M, Martin TJ, Moseley JM, Findlay DM 1996 Effects of continuous calcitonin treatment on osteoclast-like cell development and calcitonin receptor expression in mouse bone marrow cultures. J Bone Miner Res 11: 456465.
  • 34
    Tanaka S, Amling M, Neff L, Peyman A, Uhlmann E, Levy JB, Baron R 1996 c-Cbl is downstream of c-Src in a signaling pathway necessary for bone resorption. Nature 383: 528531.
  • 35
    Insogna KL, Sahni M, Grey AB, Tanaka S, Horne WC, Neff L, Mitnick M, Levy JB, Baron R 1997 Colony-stimulating factor-1 induces cytoskeletal reorganization and c-src-dependent tyrosine phosphorylation of selected cellular proteins in rodent osteoclasts. J Clin Invest 100: 24762485.
  • 36
    Rehli M, Lichanska A, Cassady AI, Ostrowski MC, Hume DA 1999 TFEC is a macrophage-restricted member of the microphthalmia-TFE subfamily of basic helix-loop-helix leucine zipper transcription factors. J Immun 162: 15591565.
  • 37
    Jin DI, Jameson SB, Reddy MA, Schenkman D, Ostrowski MC 1995 Alterations in differentiation and behavior of monocytic phagocytes in transgenic mice that express dominant suppressors of ras signaling. Mol Cell Biol 15: 693703.
  • 38
    Nicholson GC, Moseley JM, Sexton PM, Mendelsohn FA, Martin TJ 1986 Abundant calcitonin receptors in isolated rat osteoclasts. Biochemical and autoradiographic characterization. J Clin Invest 78: 355360.
  • 39
    Hattersley G, Chambers TJ 1989 Calcitonin receptors as markers for osteoclastic differentiation: correlation between generation of bone-resorptive cells and cells that express calcitonin receptors in mouse bone marrow cultures. Endocrinology 125: 16061612.
  • 40
    Kerner SA, Scott RA, Pike JW 1989 Sequence elements in the human osteocalcin gene confer basal activation and inducible response to hormonal vitamin D3. Proc Natl Acad Sci U S A 86: 44554459.
  • 41
    Lian J, Stewart C, Puchacz E, Mackowiak S, Shalhoub V, Collart D, Zambetti G, Stein G 1989 Structure of the rat osteocalcin gene and regulation of vitamin D-dependent expression. Proc Natl Acad Sci U S A 86: 11431147.
  • 42
    Boyce BF, Wright K, Reddy SV, Koop BA, Story B, Devlin R, Leach RJ, Roodman GD, Windle JJ 1995 Targeting simian virus 40 T antigen to the osteoclast in transgenic mice causes osteoclast tumors and transformation and apoptosis of osteoclasts. Endocrinology 136: 57515759.
  • 43
    Hentunen TA, Reddy SV, Boyce BF, Devlin R, Park HR, Chung H, Selander KS, Dallas M, Kurihara N, Galson DL, Goldring, SR, Koop BA., Windle JJ, Roodman GD 1998 Immortalization of osteoclast precursors by targeting Bcl -xL and Simian virus 40 large T antigen to the osteoclast lineage in transgenic mice. J Clin Invest 102: 8897.
  • 44
    Hayman AR, Jones SJ, Boyde A, Foster D, Colledge WH, Carlton MB, Evans MJ, Cox TM 1996 Mice lacking tartrate-resistant acid phosphatase (Acp 5) have disrupted endochondral ossification and mild osteopetrosis. Development 122: 31513162.
  • 45
    Takebayashi K, Chida K, Tsukamoto, I, Morii E, Munakata H, Arnheiter H, Kuroki T, Kitamura Y, Nomura S 1996 The recessive phenotype displayed by a dominant negative microphthalmia-associated transcription factor mutant is a result of impaired nucleation potential. Mol Cell Biol 16: 12031211.
  • 46
    Weilbaecher KN, Hershey CL, Takemoto CM, Horstmann MA, Hemesath TJ, Tashjian AH, Fisher DE 1998 Age-resolving osteopetrosis: A rat model implicating microphthalmia and the related transcription factor TFE3. J Exp Med 187: 775785.