1969
DOI: 10.1172/jci106021
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Demonstration of macromolecular inhibitor(s) of calcification and nucleational factor(s) in fluid from calcifying sites in cartilage

Abstract: An extracellular fluid phase (Cf 1), aspirated by micropuncture techniques from the hypertrophic cell zone of calcifying epiphyseal cartilage, has been characterized in a calcifying system in vitro in respect to the behavior of sedimenting and supernatant fractions after high speed ultracentrifugation. To perform these tests on the starting samples of 20 nI of Cf 1, macroscopic analytical methods were scaled down for the identification of relevant organic components, including hexuronic acid and proteinpolysac… Show more

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Cited by 102 publications
(35 citation statements)
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“…Earlier findings (1,2) important to the current report were (a) hypertrophic cell cartilage and extracellular fluid of normal rats or its dilutions in synthetic lymph up to 1: 4 completely prevented mineral growth in vitro, (b) the inhibitory action on mineral growth was confined to the sediment after ultracentrifugation and was abolished by prior incubation with trypsin or hyaluronidase, (c) the sediment of this extracellular cartilage fluid contained about 2 mg of hexuronate per ml of cartilage fluid and yielded a positive reaction of identification for proteinpolysaccharide with fluorescent antibodies to rat PPL-C,2 and (d) there was evidence of a mineral phase and/or organic nucleational agent for mineral production in hypertrophic cell cartilage fluid of normal rats and rats with healing rickets but not in cartilage fluid of untreated rachitic rats. These results were interpreted to indicate that certain PPC functioned as inhibitors of crystal growth at extracellular sites premonitory to calcification (2).…”
Section: Introductionmentioning
confidence: 84%
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“…Earlier findings (1,2) important to the current report were (a) hypertrophic cell cartilage and extracellular fluid of normal rats or its dilutions in synthetic lymph up to 1: 4 completely prevented mineral growth in vitro, (b) the inhibitory action on mineral growth was confined to the sediment after ultracentrifugation and was abolished by prior incubation with trypsin or hyaluronidase, (c) the sediment of this extracellular cartilage fluid contained about 2 mg of hexuronate per ml of cartilage fluid and yielded a positive reaction of identification for proteinpolysaccharide with fluorescent antibodies to rat PPL-C,2 and (d) there was evidence of a mineral phase and/or organic nucleational agent for mineral production in hypertrophic cell cartilage fluid of normal rats and rats with healing rickets but not in cartilage fluid of untreated rachitic rats. These results were interpreted to indicate that certain PPC functioned as inhibitors of crystal growth at extracellular sites premonitory to calcification (2).…”
Section: Introductionmentioning
confidence: 84%
“…No effect of rickets on behavior of untreated or enzymically degraded fluids from uncalcified cartilages was observed (Table IV). In an additional experiment, centrifugation of the hypertrophic cell cartilage sediments after hyaluronidase treatment at 3000 g for 10 min was used to synthesize a "native fluid" mineral phase as previously reported (2). When this crude mineral sediment was resuspended at a level of 0.02 mg of phosphate per ml, in fresh cartilage fluid, there resulted an R1 + R2, SR partition not detectably different from that caused by MIV mineral phase (Table IV).…”
Section: Effect On Mineral Accretion In Vitro Of Ppl Fractionsmentioning
confidence: 97%
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