Calcitonin response in circulating human lymphocytes

The calcitonin/calcitonin gene related peptide-alpha gene is not required for 1alpha,25-dihydroxyvitamin D3-mediated suppression of experimental autoimmune encephalomyelitis

The active form of vitamin D, 1alpha,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)), can suppress disease in the experimental autoimmune encephalomyelitis (EAE) model of multiple sclerosis. Calcium appears to be a critical component of 1,25(OH)(2)D(3)-mediated suppression of EAE, as complete disease prevention only occurs with a concomitant increase in serum calcium levels. Calcitonin (CT) is a peptide hormone released in response to acute increases in serum calcium, which led us to explore its importance in 1,25(OH)(2)D(3)-mediated suppression of EAE. Previously, we discovered that co-administration of pharmacological doses of CT enhanced the suppressive effect of 1,25(OH)(2)D(3) on EAE, suggesting CT may play a role in 1,25(OH)(2)D(3)-mediated suppression of EAE. To determine the importance of CT in EAE we have utilized a mouse strain in which the gene encoding CT and its alternative splice product, calcitonin gene related peptide-alpha (CGRP), have been deleted. Deletion of the CT/CGRP gene had no effect on EAE progression. Furthermore, treatment with 1,25(OH)(2)D(3) suppressed EAE in CT/CGRP knock-out mice equal to that in wild type mice. Therefore, we conclude that CT is not necessary for 1,25(OH)(2)D(3)-mediated suppression of EAE.

Pharmacodynamics of salmon calcitonin in humans: new markers of pharmacological activity

In order to define the pharmacodynamic profile of salmon calcitonin (sCT) in humans, several markers of the biological activity of the drug have been studied, namely cAMP, adenosine and pO2 in venous blood, and the cytosolic free calcium level in circulating cells. Different dosages and routes of administration (1.5 IU.kg-1 and 0.75 IU kg-1 IM, and 1.5 IU.kg-1 via nasal spray) were compared. sCT caused an increase in cAMP, adenosine and pO2, and a decrease in cytosolic free calcium in neutrophils, lymphocytes and platelets. The peak times of all these parameters ranged between 109 and 182 min, and 101 and 168 min after IM and nasal spray administration respectively. There was greater variability in the values after IM than nasal spray of administration of sCT. It is concluded that adenosine and pO2 in venous blood, and cytosolic free calcium in circulating cells are valuable markers of the activity of sCT and that sCT decreases the cytosolic free calcium level in neutrophils, lymphocytes and platelets. Pharmacodynamic analysis of the biological effects of the drug is highly reliable and valuable in predicting its pharmacological profile. sCT administration via a nasal spray is able to produce significant biological effects, although they are less marked than after IM dosing.

Development of monoclonal antibodies to parathyroid hormone-induced resorptive factors from osteoblast-like cells

Parathyroid hormone (PTH) induces osteoblast-like cells to secrete factors capable of increasing cellular bone resorption; these factors are extremely labile. We have partially isolated them from supernatants of PTH-stimulated ROS 17.2 cells using affinity chromatography. Products eluted from the matrix, carboxymethyl cellulose covalently linked to Cibacron Blue F3GA, (CM-AB) were used as immunogens in mice. Serum from these mice blocked the effect of PTH-stimulated supernatants in a bioassay for bone resorption (the bone rudiment system). Then, hybridomas were produced from spleen cells of these mice. Screening of these hybridoma cultures revealed a consistent blocking effect of supernatants at a dilution of 1:100 in the bioassay. At higher dilution (1:1000), however, fewer culture supernatants blocked this effect in the bioassay. Mixed hybridoma cultures have been cloned and subcloned. Evaluation of the resulting hybridoma supernatants revealed that supernatants from at least three clones were necessary to neutralize the effect of the PTH-induced, osteoblast-produced resorption factors in organ culture. Similarly, using sucrose density gradient analysis, it is necessary to use three antibodies to bind all the 35S-labeled protein from supernatants of PTH-stimulated ROS cultures (equivalent to the fraction used as immunogen in the mice). The effect of PTH in organ culture is blocked by this same group of hybridoma supernatants. The antibodies appear specific for osteoblast-like cell resorption factors, as they do not block the effect of PTH on cAMP accumulation in ROS cell cultures. On the other hand, they do block the effects of dibutyryl cAMP on resorption in organ culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of mitogenic and hormonal stimulation on zinc transport in mixed lymphocyte cultures

Human mixed lymphocyte cultures (hMLC) were used to examine the relationship between mitogenic stimuli (MITO), synthetic human calcitonin (hCT), and human insulin (hINS) on zinc (Zn) transport kinetics. Lymphocytes were isolated using a Ficoll density gradient. The hMLCs were labeled by incubation with 65Zn in either control or MITO-containing media. 65Zn release to equilibrium was then measured in unstimulated and mitogen-stimulated cells treated with hCT and hINS. hCT and hINS were added only during this final incubation due to the rapid response to peptide hormones. Bidirectional transmembrane flux coefficients were calculated using a closed two-compartment model. The hMLCs subjected to MITO stimulation demonstrated a 25% decrease in the fractional efflux coefficient (Kcm) and a 69% increase in the fractional influx coefficient (Kmc) compared with controls. Acute exposure to hINS resulted in a marked increase in Kmc with no significant change in Kcm. Acute exposure to hCT had effects qualitatively similar to those of MITO alone. Neither hormone significantly altered the transport of 65Zn when compared with stimulation with MITO alone.

Expression of calcitonin receptors during osteoclast differentiation in mouse metatarsals

Metatarsal bones of 15-day-old mouse embryos contain proliferative tartrate-resistant acid phosphatase (TRAP) negative (-) osteoclast progenitors that progressively differentiate into multinucleated TRAP positive (+) osteoclasts. Using histochemical and autoradiographic techniques, we have examined the expression of calcitonin receptors during osteoclast differentiation in mouse metatarsals. Fresh mouse metatarsals from embryos aged 14-17 days and metatarsals from 15-day-old embryos cultured for 1, 2, 3, and 6 days were stained for TRAP. Calcitonin binding to osteoclasts and their precursors was studied by incubating metatarsals with [125I]salmon calcitonin (sCT) and quantitating grain counts from autoradiographs of tissue sections. Calcitonin receptors first appear on nonproliferating osteoclast precursors, most often just after or simultaneously with the development of TRAP activity. The effect of sCT on the development of TRAP+ mononuclear preosteoclasts was examined by culturing 15-day-old metatarsals in the continuous presence of 5 mU sCT for periods of up to 3 days and quantitating the number of TRAP+ mononuclear preosteoclasts that develop. Calcitonin did not affect the differentiation of osteoclasts up to the stage of the TRAP+ mononuclear preosteoclast.

The actions of calcitonin on the TM3 Leydig cell line and on rat Leydig cell-enriched cultures

Studies demonstrating calcitonin receptors on Leydig cells have suggested that these cells may be one of the many sites affected by this peptide. To investigate this possibility, the effect of synthetic salmon calcitonin on the TM3 Leydig cell line (derived from immature mouse Leydig cells) and on primary Leydig cell-enriched preparations was examined. Synthetic salmon calcitonin stimulated the conversion of [3H]adenine to [3H]cyclic AMP in TM3 cells. In addition, the hormone stimulated the basal secretion of testosterone in both TM3 cell- and Leydig cell-enriched cultures and potentiated the action of hCG on Leydig cell-enriched cultures. Synthetic salmon calcitonin also increased the concentration of androgen and estrogen receptors in cultured TM3 Leydig cells by 2- and 4-fold, respectively, when added to the culture medium (1 micrograms/ml). The fact that 8-bromo-cyclic AMP decreased both androgen and estrogen receptor concentrations suggested that the effect of calcitonin on sex steroid receptors is not mediated by its effect on cyclic AMP in these cells. The possibility that the action of calcitonin on steroid receptors might be mediated by another messenger such as calcium (Ca2+) was therefore considered. Progressively lowering the concentration of Ca2+ in the culture medium of the cells from 1.5 mM to less than 0.01 mM decreased the concentration of both androgen and estrogen receptors. Returning the Ca2+ concentration to normal levels (1.5 mM) restored steroid receptor levels. Receptor levels were also decreased when the extracellular Ca2+ concentration was lowered to 0.5 mM, and treatment with the Ca2+ ionophore, A23187 (1 microM), restored receptor levels to normal. The calcium channel blocker, verapamil, decreased the androgen receptor concentration but unexpectedly increased the concentration of estrogen receptors. It was concluded that calcitonin stimulates cAMP formation and testosterone secretion, and increases the concentration of sex steroid receptors. These observations provide evidence that the previously demonstrated calcitonin receptors on Leydig cells may be coupled to several biologic responses in this cell type.

Calcitonin inhibits accumulation of cyclic AMP in stimulated peritoneal macrophages from normal rats but not from osteopetrotic (incisors-absent) littermates

Macrophages and osteoclasts derive from related cell lines. In osteopetrotic mutants the function of osteoclasts is greatly reduced compared to that in normal animals or children and macrophage function is variably affected depending upon the mutation. To further explore macrophage function in osteopetrosis we examined the regulation of cyclic AMP production in macrophages from mutants and normal littermates of the osteopetrotic stock incisors-absent (ia) in the rat. Surface stimulation by latex particles of elicited peritoneal macrophages from normal or osteopetrotic (ia) mutant rats caused an identical increase in the accumulation of cyclic AMP. This effect was inhibited in normal animals by coincubation of macrophages with calcitonin (CT) but this inhibition was either absent or less marked in macrophages from mutant littermates. In contrast to human monocytes preincubation of rat macrophages with pertussis toxin did not relieve this inhibition. This implies that rat peritoneal macrophages respond to CT by a different mechanism. These results demonstrate altered macrophage function in osteopetrotic animals and may be functionally related to the reduced CT binding previously described in ia osteoclasts. Furthermore, the coexistence of reduced function of macrophages and osteoclasts in the ia mutation suggests that macrophages and osteoclasts share a common progenitor.

Calcitonin enhances production of prostaglandins by stimulated human monocytes

Stimulated monocytes produce prostaglandins that may play a role in bone resorption. We studied the effects of salmon calcitonin (sCT) on human monocyte production of various prostaglandin metabolites. Latex particle-stimulated human monocyte production of prostaglandin E2, thromboxane A2 measured as thromboxane B2, and prostacyclin measured as 6-keto-PGF1 alpha was each increased in the presence of sCT. This effect required surface stimulation, was blocked by indomethacin, was less marked with equivalent concentrations of human calcitonin, and was not seen with parathyroid hormone. Calcitonin specifically affects prostaglandin pathways in stimulated human monocytes.