Abstract
We investigated the evolutionary origin of a serum activity that induces calcification within a type I collagen matrix, an activity previously described in rat and bovine serum. Serum was obtained from vertebrates with calcified tissues (bony fish and shark), vertebrates without calcified tissues (lamprey and hagfish), and three invertebrates (marine worm, crab, and sea urchin). Serum from the bony fish and shark proved to contain a potent nucleator of collagen calcification; like the previously described calcifying activity in rat serum, the fish and shark activities are both able to recalcify a demineralized rat tibia when tested in Dulbecco’s modified Eagle medium containing as little as 1.5% of the respective serum and have an apparent molecular weight of 50–150 kDa. No calcifying activity could be detected in any of several experimental tests of invertebrate or hagfish serum. Weak calcifying activity could be detected in lamprey serum, but calcification was restricted to the growth plate of the decalcified tibia, with no detectable calcification in the type I collagen of the midshaft. These studies reveal a correlation between the evolutionary timing of the appearance of calcified tissues in vertebrates and the appearance of the serum activity that initiates calcification within collagen and, therefore, support the hypothesis that this serum activity may play a role in normal calcification of bone.
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References
HamLin NJ, Price PA (2004) Mineralization of decalcified bone occurs under cell culture conditions and requires bovine serum but not cells. Calcif Tissue Int 75:231–242
Price PA, June HH, Hamlin NJ, Williamson MK (2004) Evidence for a serum factor that initiates the re-calcification of demineralized bone. J Biol Chem 279:19169–19180
Chen PS, Toribara TY, Warner H (1956) Microdetermination of phosphorus. Anal Chem 28:1756–1758
Applegate SP (1967) A survey of shark hard parts. In: Gilbert PW, Mathewson RF, Rall DP (eds), Sharks, Skates, and Rays. Johns Hopkins Press, Baltimore, pp 37–67
Urist MR (1961) Calcium and phosphorus in the blood and skeleton of the Elasmobranchii. Endocrinology 69:778–801
Parfitt AM (2000) The mechanism of coupling: a role for the vasculature. Bone 26:319–323
Urist MR (1962) The bone-body continuum: calcium and phosphorus in the skeleton and blood of extinct and living vertebrates. Perspect Biol Med 6:75–115
Luo G, Ducy P, McKee MD, Pinero GJ, Loyer E, Behringer RR, Karsenty G (1997) Spontaneous calcification of arteries and cartilage in mice lacking matrix Gla protein. Nature 386:78–81
Price PA, Faus SA, Williamson MK (1998) Warfarin causes rapid calcification of the elastic lamellae in rat arteries and heart valves. Arterioscler Thromb Vasc Biol 18:1400–1407
Price PA, Lim JE (2003) The inhibition of calcium phosphate precipitation by fetuin is accompanied by the formation of a fetuin-mineral complex. J Biol Chem 278:22144–22152
Schinke T, Amendt C, Trindl A, Poschke O, Muller-Esterl W, Jahnen-Dechent W (1996) The serum protein alpha 2-HS glycoprotein/fetuin inhibits apatite formation in vitro and in mineralizing calvaria cells. J Biol Chem 271:20789–20796
Acknowledgments
We are grateful to the following people for their assistance: Jason Stannard and Mike McNair (Kent SeaTech Corporation, San Diego, CA) for hybrid striped bass blood; Dr. Matthew G. Mesa (U.S. Geological Survey, Columbia River Research Laboratory, Cook, WA), and David Close (laboratory of Dr. Wei Ming Li, Michigan State Univeristy, East Lansing, MI) for Pacific lamprey serum; Dr. Meredith Gould (University of California, San Diego) for marine worm serum; Eddie Kisfaludy (SIO, La Jolla, CA) for acquiring and housing hagfish, sharks, crab and sea urchins; Dr. Russell Doolittle (University of California-San Diego) for helpful discussions; and Matthew Williamson for protein sequencing and critical review of the manuscript. This work was supported in part by grant HL-58090 from the National Heart, Lung, and Blood Institute of the NIH.
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Hamlin, N.J., Ong, K.G. & Price, P.A. A Serum Factor that Recalcifies Demineralized Bone Is Conserved in Bony Fish and Sharks but Is Not Found in Invertebrates. Calcif Tissue Int 78, 326–334 (2006). https://doi.org/10.1007/s00223-005-0205-6
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DOI: https://doi.org/10.1007/s00223-005-0205-6