We have used a catheterization system that permits chronic infusion into the arterial supply of one hindlimb of rats to study the direct effects of rat growth hormone and human somatomedin C on growth of the tibial epiphyseal cartilage plate in hypophysectomized rats. Rat growth hormone (0.4 ,.g per day) or human somatomedin C (0.25, 1, or 4 ,ug per day) stimulated growth of the epiphyseal plate of the infused limb but not of that of the contralateral noninfused limb. The somatomedin C had a dose-related effect. Rabbit antiserum to human somatomedin C, but not normal rabbit serum, completely abolished the direct growth effect of the rat growth hormone when it was co-infused with the hormone. These results support the concept that growth hormone stimulates long bone growth by inducing local production of somatomedin, which in turn stimulates cell proliferation in an autocrine or paracrine fashion. However, they do not exclude the possibility that serum somatomedin may also play a role.The somatomedin hypothesis of Salmon and Daughaday (1) maintains that the growth-promoting actions of growth hormone (GH) are indirect and act via GH-dependent plasma factors named somatomedins or insulin-like growth factors. This hypothesis has evolved to include the concept that somatomedins are produced primarily by the liver in response to GH (2-4). Although most of the early evidence in support of this theory was derived from in vitro work, Schoenle et al. (5) recently demonstrated a dose-related growth-promoting effect of systemically infused human somatomedin (hSm) on the proximal tibial epiphyseal plate of hypophysectomized rats. However, a local effect of GH on tibial cartilage growth has also been demonstrated in hypophysectomized rats in vivo by direct injection into the proximal tibial epiphyseal plate (6, 7), by intraarticular injection into the knee joint or administration into the epiphysis by implanted cannula (8), and by chronic infusion into the arterial supply of one hindlimb (9). In addition, numerous cells and tissues have been shown to produce somatomedins in vitro, either spontaneously or in response to GH (10-18). Thus, it is possible that GH exerts its direct effects by stimulating local production of somatomedins.To investigate this possibility we used the system of Schlechter et al. (9), which permits chronic infusion into the arterial supply of one hindlimb of a rat. With this procedure, we have demonstrated a direct growth-promoting effect of human somatomedin C (hSm-C) on the proximal tibial epiphyseal plate of hypophysectomized rats. In addition, we have found that the local effect of rat GH (rGH) could be completely abolished by co-infusing an antiserum raised against hSm-C. MATERIALS AND METHODSMale Long-Evans rats (125-150 g) were obtained from our breeding colony. Husbandry conditions were as described (9). The animals were hypophysectomized by the transauricular approach (19) 14 days prior to catheterization. On the day of catheterization, they were reanesthetized (9) and the right superi...
We have developed a method for infusing substances into one hindlimb of the rat via the arterial supply. A catheter attached to an osmotic minipump is inserted into the right superior vesical artery and advanced to the junction of the right common iliac artery. This arrangement permits either constant or pulsatile infusion for 7 days. We employed this method to study the direct action of rat growth hormone (rGH) on the proximal tibial epiphysial plate in hypophysectomized rats. Infusion of neither the solvent nor ovine prolactin (2 micrograms X rat-1 X day -1) affected epiphysial plate width compared with control (uninfused) legs. The rGH infused at 0.4 and 2.0 micrograms X rat-1 X day-1 produced dose-related local growth effects that were of similar magnitude with either constant or pulsatile (eight 1-h pulses/day) infusion. However, the higher dose of rGH also resulted in a systemic effect (i.e., epiphysial plate growth in the uninfused limb), and the pulsatile mode produced a greater systemic effect than that produced by constant infusion. Our results indicate that GH can act directly on cartilage in vivo to maintain growth and that its effectiveness is not enhanced by pulsatile delivery. In contrast, the indirect (i.e., systemic) growth effects of the hormone may be enhanced by intermittent infusion. Our infusion system is well suited for studying the direct effect of substances on hindlimb tissues in conscious, unrestrained rats over extended periods.
LHRH antagonists compete with endogenous LHRH for binding to receptors on pituitary gonadotrophs and thereby inhibit gonadotropin secretion and, consequently, gonadal function. We studied the pituitary and gonadal suppression following single doses and short term administration (1-3 weeks) of a recently developed LHRH antagonist in normal men. First, the antagonist Nal-Glu ([Ac-D2Nal1, D4ClPhe2,D3Pal3,Arg5,DGlu6(AA),DAla10]LHRH ), was given as a single sc injection to five normal men at three dose levels of 1, 5, and 20 mg (study I). Serum FSH, immunoreactive LH (IR-LH), bioactive LH (bio-LH), testosterone, and estradiol were measured before and at frequent intervals for 48 h after Nal-Glu administration. Mean serum FSH decreased (P less than 0.001) by 28.9 +/- 5.4% (+/- SE), 38.2 +/- 7.9%, and 44.5 +/- 3.6% after the 1-, 5-, and 20-mg doses, respectively. Mean serum IR-LH decreased (P less than 0.001) by 39.0 +/- 13.8%, 53.2 +/- 10.0%, and 53.1 +/- 14.4% after the three doses. Serum bio-LH levels and the ratio of bio-LH/IR-LH decreased (P less than 0.001) after the 20-mg dose by 87.8% and 78.5%, respectively. Serum testosterone levels decreased (P less than 0.001) more than 78.5% after all Nal-Glu doses. The duration of testosterone suppression, but not the nadir reached, was dose dependent (P = 0.012). Serum estradiol levels also decreased (P less than 0.001), but the rate of decrease was slower than that of serum testosterone. The apparent plasma disappearance half-life of Nal-Glu after administration of 5 mg was 12.8 +/- 2.7 h. The Nal-Glu antagonist also was given daily as a single sc injection of 5 mg to eight normal men for 21 days (study II) or twice daily to five men for 7 days (study III). In study II, serum FSH, IR-LH, bio-LH, testosterone, estradiol, and 17-hydroxy-progesterone were measured daily, immediately before the next injection, and on days 1, 7, and 21 in frequent blood samples drawn for 24 h. The mean serum testosterone level in study II decreased (P less than 0.001) from 17.6 +/- 2.2 to 4.1 +/- 1.0 nmol/L on day 1, increased (P less than 0.05) between days 2 and 8, and then progressively decreased to below 2 nmol/L from day 18 until 24 h after the end of the study. Serum FSH, IR-LH, and bio-LH levels paralleled those of testosterone.(ABSTRACT TRUNCATED AT 400 WORDS)
The possibility that insulin-stimulated cartilage growth in hypophysectomized rats involves local production of insulin-like growth factor I (IGF-I) was investigated. Osmotic minipumps with attached catheters were used to infuse insulin into the right hindlimb of rats via the common iliac artery for 7 days starting 14 days after pituitary removal. The left, noninfused limb served as an internal control. Doses of insulin ranging from 0.25 to 50 mU/day caused significant increases in the tibial epiphyseal plate width (TEPW) of the infused limbs. The optimal dose of 1.25 mU/day increased the TEPW by 51 microns. Immunohistochemical analysis with an antiserum to human IGF-I showed that the growth response to the optimal dose was accompanied by the accumulation of IGF-I in the chondrocytes in the tibial plate. Infusion of insulin at a dose of 10 mU/day increased the TEPW by 18.6 +/- 3.0 microns. When the same dose of insulin was infused with the antiserum to human IGF-I, the growth response was completely nullified. These results indicate that cartilage cells in hypophysectomized rats are highly sensitive to the direct growth-promoting action of insulin. Furthermore, the growth effect appears to be mediated by or dependent on local production of IGF-I.
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