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1

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Effect of multiplication-stimulating activity on DNA and protein synthesis in cultured fetal rat calvaria (1979)

Canalis, Ernesto ; Raisz, Lawrence G.

Springer

Calcified tissue international 29 (1979), S. 33-39

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ISSN: 1432-0827

Keywords: Multiplication-stimulating activity ; Somatomedin ; Tissue culture ; Bone formation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Multiplication-stimulating Activity (MSA), a peptide closely related to somatomedin, was examined for its effects on bone formation and sulfation activity in vitro. To study the effect of MSA on bone formation, we examined its effects on the incorporation of3H-thymidine into DNA,3H-uridine into RNA, and3H-proline into collagenase-digestible (CDP) and noncollagen protein (NCP), as well as DNA content in 21-day fetal rat calvaria cultured for 24 h periods. MSA caused a dose-dependent stimulation of the incorporation of3H-thymidine into DNA at concentrations of 1 to 3µg/ml, increased the total DNA content, and had no effect on3H-uridine incorporation. The effect on3H-thymidine incorporation appeared and was maximal at 12 h and was sustained for 24 h. After 24 h of treatment, MSA, 1 to 3µg/ml, caused a 25 to 60% stimulation on the incorporation of3H-proline into CDP and NCP. The effect was not specific for CDP, and there was no increase in the percent collagen synthesized. In contrast, insulin, 10 nM, increased the labeling of CDP by 95% but had a small effect on NCP and did not affect DNA synthesis. Insulin did not diminish the MSA effect on CDP and NCP labeling but slightly decreased its effect on thymidine incorporation. Cortisol inhibited DNA synthesis, but MSA was effective in its presence and cortisol did not affect the stimulatory effect of MSA on CDP or NCP. Histological sections showed a sixfold increase in the mitotic index after colcemid arrest in MSA-treated bones. MSA, 0.1 to 5µg/ml, also stimulated the incorporation of35S into pig costal cartilage in culture. Our studies indicate that MSA stimulates DNA, collagen, and noncollagen protein synthesis in bone cultures and stimulates sulfate incorporation into cartilage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02408053

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2

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Effect of sex steroids on bone collagen synthesis in vitro (1978)

Canalis, Ernesto ; Raisz, Lawrence G.

Springer

Calcified tissue international 25 (1978), S. 105-110

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ISSN: 1432-0827

Keywords: Progesterone ; 17β estradiol ; Testosterone ; Tissue culture ; Bone

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Although sex steroids are known to affect skeletal metabolism, their effects on bone collagen synthesis have not been studied. We have examined the direct effects of progesterone, 17β estradiol, testosterone, 5α dihydrotestosterone and dehydroepiandrosterone on bone collagen and noncollagen protein synthesis in cultures of calvaria obtained from 21-day fetal rats. Bones were incubated for 24 to 168 h and3H-proline was added for the last 2 h of culture. Incorporation of the label into collagenase-digestible protein (CDP)1 and noncollagen protein (NCP) was determined using repurified bacterial collagenase. Progesterone caused a dose dependent inhibition of the labeling of CDP at concentrations of 3×10−7 M to 10−5 M after 96 h of culture. A smaller inhibitory effect was observed on NCP. The inhibitory effect was slow in onset and persisted when bones were incubated for 48 h with progesterone and then transferred to control medium for 48 h. Progesterone also inhibited the incorporation of3H-thymidine and3H-uridine into fetal rat calvaria. After 24 h of culture, 17β estradiol and testosterone had no effects on the labeling of CDP and NCP. After 96 h, 17β estradiol had a small and inconsistent stimulatory effect on the labeling of CDP but testosterone had no effect. Neither hormone altered the inhibitory effects of parathyroid hormone, cortisol and progesterone. Dihydrotestosterone and dehydroepiandrosterone had no effects after 24 h and 96 h of culture. 17β estradiol, testosterone and dihydrotestosterone did not affect the incorporation of3H-uridine or3H-thymidine into fetal rat calvaria. Our studies indicate that progesterone is an inhibitor of bone collagen synthesis and estrogens and androgens are not major regulators of bone formation in vitro.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02010758

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3

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Effect of cartilage-derived factor on DNA and protein synthesis in cultured rat calvariae (1984)

Canalis, Ernesto ; Kato, Yukio ; Hiraki, Yuji ; [et al.]

Springer

Calcified tissue international 36 (1984), S. 102-107

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ISSN: 1432-0827

Keywords: Cartilage-derived factor ; DNA ; Collagenase-digestible protein ; Noncollagen protein-Calvarial

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Cartilage-derived factor (CDF), a peptide closely related to the somatomedins, was studied for its effects on bone formation by examining the synthesis of DNA, collagen, and noncollagen protein in 24–96 h cultures of 21-day fetal rat calvariae. After 24 h of treatment, CDF at concentrations of 0.3–30 µg/ml caused a dose-dependent stimulation of the incorporation of3H-thymidine into DNA by 12–59%. The effect appeared and was maximal after 12 h, and was sustained for 96 h. CDF also increased the bone DNA content by 30–60%. After 24 h of treatment, CDF at 10–30 µg/ml had a small stimulatory effect on the incorporation of3H-proline into collagenase-digestible protein (CDP) and noncollagen protein (NCP). The effect on the labeling of CDP and NCP was sustained for 96 h. Cortisol decreased the stimulatory effect of CDF on DNA labeling but cortisol and CDF had an additive effect on the incorporation of3H-proline into CDP. The CDF stimulatory effect on the labeling of DNA, CDP, and NCP was seen in both the periosteum and periosteum-free calvaria. These studies indicate that CDF stimulates bone DNA, collagen, and noncollagen protein synthesisin vitro and may be a local regulator of bone growth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405301

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4

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Local bone growth factors (1984)

Canalis, Ernesto

Springer

Calcified tissue international 36 (1984), S. 632-634

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ISSN: 1432-0827

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405381

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5

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Effect of cortisol on periosteal and nonperiosteal collagen and DNA synthesis in cultured rat calvariae (1984)

Canalis, Ernesto

Springer

Calcified tissue international 36 (1984), S. 158-166

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ISSN: 1432-0827

Keywords: Cortisol ; Collagen synthesis ; DNA synthesis ; Alkaline phosphatase activity ; Periosteum and nonperiosteal bone

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary The effects of cortisol on bone formation are complex and may be modulated by the presence of periosteal cells or by factors released by the periosteal tissue. To test these possibilities, cortisol was examined for its effects on the incorporation of3H-proline into collagenase-digestible protein (CDP) and noncollagen protein (NCP), on DNA synthesis and on alkaline phosphatase activity in intact and in the periosteum and nonperiosteal bone of dissected calvariae from 21-day-old fetal rats. After 24 h of treatment, cortisol increased the incorporation of3H-proline into CDP in intact bones and in the nonperiosteal bone of calvariae dissected after the culture. Cortisol inhibited the incorporation of3H-thymidine into calvarial DNA but it caused a small increase in nonperiosteal DNA content. Cortisol did not affect the incorporation of3H-proline into CDP in calvariae dissected prior to the culture if the periosteum and nonperiosteal central bone were incubated separately; the stimulatory effect was observed only if the two tissues were cultured in the same vial and were in contact. In contrast, cortisol stimulated alkaline phosphatase activity in the central nonperiosteal bone of calvariae dissected before or after the culture. After 72–96 h of treatment, cortisol inhibited the labeling of CDP, NCP, and DNA and the DNA content in intact bones and in both periosteal and nonperiosteal central bone of calvariae dissected after the culture. In contrast, when the periosteum was removed before the incubation, these inhibitory effects were observed in the periosteum and not in the nonperiosteal bone. Cortisol inhibited alkaline phosphatase activity in intact bones treated for 96 h, but removal of the periosteum resulted in a stimulatory effect in the nonperiosteal central bone. These studies indicate that 24 h treatment with cortisol stimulates collagen synthesis in nonperiosteal bone, an effect that requires the presence of periosteal tissue. Exposure to cortisol for 72–96 h inhibits collagen, noncollagen protein, and DNA synthesis, an effect that is secondary to an inhibition of periosteal cell replication. Cortisol does not cause a direct inhibition of osteoblastic function.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405312

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6

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Systemic and local factors and the maintenance of bone quality (1993)

Canalis, Ernesto

Springer

Calcified tissue international 53 (1993), S. S90

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ISSN: 1432-0827

Keywords: Growth factors ; Hormones ; Bone formation ; Osteoblast

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Bone formation, an essential process for the maintenance of bone mass and strength, depends on changes in osteoblast number or function. Bone formation is modified by systemic hormones such as parathyroid hormone, growth hormone, insulin and steroids, and by local factors that act in an antocrine or paracrine fashion on the osteoblast. Skeletal cells synthesize platelet-derived growth factors and fibroblast growth factors, agents which affect osteoblast cell replication. In addition, skeletal cells synthesize insulin-like growth factors and transforming growth factors beta, agents which also affect the differentiated function of the osteoblast. Systemic and local factors that modify bone formation are likely critical in the maintenance of normal bone.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01673411

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