• 1
    Takeshita T, Yamagata Z, Iijima S, Nakamura T, Ouchi Y, Orimo H, Asaka A 1992 Genetic and environmental factors of bone mineral density indicated in Japanese twins. Gerontology 38:4349.
  • 2
    Kelly PJ, Harris M 1995 Genetic regulation of peak bone mass. Acta Paediatr 411:2429.
  • 3
    Alekal L, Clasey JL, Fehling PD, Weigel RM, Boileau RA, Erdman JW, Stillman R 1995 Contributions of exercise, body composition, and age to bone mineral density in premenopausal women. Med Sci Sports Exerc 27:14771485.
  • 4
    Jouanny P, Guillemin F, Kuntz C, Jeandel C, Pourel J 1995 Environmental and genetic factors affecting bone mass. Similarity of bone density among members of healthy families. Arthritis Rheum 38:6167.
  • 5
    Livshits G, Vainder M, Pavlovsky O, Kobyliansky E 1996 Population biology of human aging: Ethnic and climatic variation of bone age scores. Hum Biol 68:293314.
  • 6
    Matkovic V 1996 Nutrition, genetics and skeletal development. J Am Coll Nutr 15:556569.
  • 7
    Ralston SH 1997 The genetics of osteoporosis. QJM 90:247251.
  • 8
    Ferrari S, Rizzoli R, Slosman D, Bonjour JP 1998 Familial resemblance for bone mineral mass is expressed before puberty. J Clin Endocrinol Metab 83:358361.
  • 9
    Hopper JL, Green RM, Nowson CA, Young D, Sherwin AJ, Kaymakci B, Larkins RG, Wark JD 1998 Genetic, common environment, and individual specific components of variance for bone mineral density in 10- to 26-year-old females: A twin study. Am J Epidemiol 147:1729.
  • 10
    Murray EJ, Song MK, Laird EC, Murray SS 1993 Strain-dependent differences in vertebral bone mass, serum osteocalcin, and calcitonin in calcium-replete and -deficient mice. Proc Soc Exp Biol Med 203:6473.
  • 11
    Beamer WG, Donahue LR, Rosen CJ, Baylink DJ 1996 Genetic variability in adult bone density among inbred strains of mice. Bone 18:397403.
  • 12
    Dimai HP, Linkhart TA, Linkhart SG, Donahue LR, Beamer WG, Rosen CJ, Farley JR, Baylink DJ 1998 Alkaline phosphatase levels and osteoprogenitor cell numbers suggest that bone formation may contribute to peak bone density differences between two inbred strains of mice. Bone 22:211216.
  • 13
    Sheng MH-C, Beamer WG, Donahue LR, Rosen CJ, Baylink DJ, Wergedal JE 1998 Phenotype studies show that endosteal bone formation is greater in C3 (high density) than B6 (low density) mice during growth. FASEB J 12:A508.
  • 14
    Baylink D, Farley J, Donahue L, Rosen CJ, Barr B, Lee JES, Beamer W 1995 Evidence that high peak bone density is due to decreased resorption not increased formation in a murine model. J Bone Miner Res 10:338.
  • 15
    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.
  • 16
    Takahashi N, Akatsu T, Udagawa N, Sasaki T, Yamaguchi A, Moseley JM, Martin TJ, Suda T 1988 Osteoblastic cells are involved in osteoclast formation. Endocrinology 123:26002602.
  • 17
    Jimi E, Nakamura I, Amano H, Taguchi Y, Tsurakai T, Tamura M, Takahashi N, Suda T 1996 Osteoclast functions is activated by osteoblastic cells through a mechanism involving cell-to-cell contact. Endocrinology 137:21872190.
  • 18
    Girasole G, Passeri B, Jilka RL, Manolagas SC 1994 Interleukin-11: A new cytokine critical for osteoclast development. J Clin Invest 93:15161524.
  • 19
    Udagawa N, Takahashi N, Katagiri T, Tamura T, Wada S, Findlay DM, Martin TJ, Hirota H, Taga T, Kishimoto T, Suda T 1995 Interleukin (IL)-6 induction of osteoclast differentiation depends on IL-6 receptors expressed on osteoblastic cells but not on osteoclast progenitors. J Exp Med 182:14611468.
  • 20
    Takahashi N, Udagawa N, Akatsu T, Tanaka H, Shionome M, Suda T 1991 Role of colony-stimulating factors in osteoclast development. J Bone Miner Res 6:977985.
  • 21
    Takada Y, Kusuda M, Hiura K, Sato T, Mochizuki H, Nagao Y, Tomura M, Yahiro M, Hakeda Y, Kawashima H, Kumegawa M 1992 A simple method to assess osteoclast-mediated bone resorption using unfractionated bone cells. Bone Miner 17:347359.
  • 22
    Chen C, Beamer WG, Donahue LR, Kalu DN 1996 Strain differences in serum 1,25(OH)2 levels and in intestinal vitamin D receptor occupancy between C3H/HeJ and C57BL/6Jmice. J Bone Miner Res 11 (Suppl 1):S316.
  • 23
    Mochizuki H, Hakeda Y, Wakatsuki N, Usui N, Akashi S, Sato T, Tanaka K, Kumegawa M 1992 Insulin-like growth factor-I supports formation and activation of osteoclasts. Endocrinology 131:10751080.
  • 24
    Rosen CJ, Dimai HP, Vereault D, Donahue LR, Beamer WG, Farley J, Linkhart S, Linkhart T, Mohan S, Baylink DJ 1997 Circulating and skeletal insulin-like growth factor-I (IGF-I) concentrations in two inbred strains of mice with different bone mineral densities. Bone 21:217223.
  • 25
    Suda T, Udagawa N, Nakamura I, Miyaura C, Takahashi N 1995 Modulation of osteoclast differentiation by local factors. Bone 17:87S91S.
  • 26
    Jilka RL, Weinstein RS, Takahashi K, Parfitt AM, Manolagas SC 1996 Linkage of decreased bone mass with impaired osteoblastogenesis in a muring model of accelerated senescence. J Clin Invest 97:17321740.
  • 27
    Linkhart T, Linkhart S, Farley J, Dimai HP, Quian H-Y, Horowitz M, Beamer W, Donahue LR, Rosen C, Baylink DJ 1996 Osteoblast production of osteolytic cytokines: Differences between low peak bone density C57BL/6J mice and high peak bone density C3H/HeJ mice. J Bone Miner Res 11 (Suppl 1):S167.