Increased calcitonin gene-related peptide- and cholecystokinin-like immunoreactivities in spinal motoneurones after dorsal rhizotomy.

Possible changes in neuropeptides within the ventral horn of the spinal cord were investigated after unilateral dorsal rhizotomy at the lumbar level (L1-L6) in adult rats. Ten days after the surgery, immunohistochemical observations and radioimmunological determinations confirmed a marked loss of calcitonin gene-related peptide (CGRP)- and substance P (SP)-like immunoreactivities within the superficial layers of the deafferented dorsal horn, as expected from the degeneration of primary afferent fibres containing these peptides. A concomitant increase in immunohistochemical staining and levels of CGRP (+296%) and CCK (+71%)-like immunoreactivities was observed in the ipsilateral ventral horn where both peptides are located in motoneurones. In contrast, substance P-like immunoreactivity that is confined to fibres and terminals within the ventral horn, was not altered by dorsal rhizotomy. These data indicate that the expression of neuropeptides in spinal motoneurones can be influenced by primary afferent inputs.

Parathyroid glands in chronic aluminum intoxication.

In chronic renal failure, aluminum overload may influence parathyroid function. In a study of possible aluminum-induced parathyroid abnormalities, parathyroid glands from nine parathyroidectomized patients on hemodialysis were examined by light and electron microscopy and by X-ray microanalysis. Aluminum overload was assessed by the presence of stainable aluminum (aluminum surface, 23.3% +/- 11% of total surface) in bone biopsy specimens. The mean plasma aluminum concentration was 7.7 +/- 1.9 mumol/L. All patients but one had elevated plasma concentrations of immunoreactive parathyroid hormone as well as osteitis fibrosa. The aluminum concentrations in bone and parathyroid gland from these patients were significantly higher than those in tissue from patients on hemodialysis without stainable bone aluminum. Abundant aluminum deposits were present in parathyroid chief cell cytoplasm in lipoid bodies, lipofuscin granules, and mitochondria. These cells exhibited features of active hormonal synthesis and contained numerous secretory granules. The data show that in the parathyroid glands of these aluminum-intoxicated patients the presence of aluminum deposits neither induced cellular damage or chief cell necrosis nor interfered with the production of parathyroid hormone.

Bone modeling in gallium nitrate-treated rats.

Gallium nitrate (GaN) reduces cancer-related hypercalcemia and inhibits bone resorption in vitro. This study investigated the effects of chronic GaN administration on bone, kidney, and parathyroid gland activity of growing rats. Experimental animals received GaN (1.75 mg elemental gallium i.p. QOD X 8, Ga+), and controls received the solvent (Ga-). In the bone of Ga+ rats the number of osteoclasts was increased (Ga+: 70.4 +/- 2.31 osteoclasts/mm2; Ga-: 46.5 +/- 1.61 osteoclasts/mm2, P less than 0.001), and apposition rate and osteoid width were unchanged. Ga was concentrated in bone (2.4 mumol/g cortical bone) and detected by electron microprobe on the surface of a few trabeculae. Alkaline (Alp) and acid (Acp) phosphatase activities were higher in Ga+ than in Ga- calvaria (Ga+: Alp 223 +/- 23.4 U/mg prot, Ga-: Alp 145 +/- 13.3 U/mg prot, P less than 0.02; Ga+: Acp 69.5 +/- 4.7 U/mg prot, Ga-: 57.5 +/- 2.8 U/mg prot, P less than 0.05). Serum iPTH was increased (Ga+: 112.9 +/- 17.6 pg/ml, Ga-: 41.4 +/- 7.4 pg/ml, P less than 0.01), serum calcium was reduced (Ga+: 2.4 +/- 0.02 mmol/l, Ga-: 2.6 +/- 0.03 mmol/l, P less than 0.001); calciuria remained comparable to controls. Relative to the hypocalcemia this suggests renal loss of Ca. The calcemic response to hPTH 1-34 (i.v. 50 micrograms/kg) was decreased 2 hours after injection of the hormone (delta Ca: TPTX Ga+: 0.11 +/- 0.04 mmol/l, Ga-: 0.33 +/- 0.03 mmol/l P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

Parathyroid response to aluminum in vitro: ultrastructural changes and PTH release.

The endocrine response of porcine parathyroid gland tissue slices in vitro to aluminum was studied by electron microscopy and radioimmunoassay of PTH. Medium aluminum concentrations were 20 to 500 ng/ml covering the range corresponding to concentrations reported in the plasma of aluminum-intoxicated hemodialyzed patients. Aluminum inhibited iPTH-release and caused severe cell alterations. This inhibition was incomplete and there was an aluminum-insensitive iPTH-release capacity. This phenomenon seemed to be due to heterogeneous parathyroid cell population as regards aluminum sensitivity, perhaps linked to the spontaneous asynchronous cyclic parathyroid cell changes. Sensitivity to aluminum was modulated by the extra-cellular calcium concentration. Sensitivity to extra-cellular calcium concentration variations persisted in aluminum intoxicated tissues. The severity of the observed cell lesions induced by high concentrations of aluminum suggested that the recovery of an iPTH-release capacity when parathyroid tissue was withdrawn from a toxic environment and switched to aluminum-free media is more likely to be due to activation of a "less-sensitive to aluminum" cell pool than to a true reversibility of the toxic effect.

Mitochondrial calcium and bone mineralization in the rat fetus.

The initial mineralization of the tibial bone collar of 17-day-old rat fetuses has been investigated. Images obtained after glutaraldehyde-paraformaldehyde-OsO4 fixation were compared to those obtained after K-pyroantimonate (PAO) fixation. Ca, P and Sb were identified and Ca/P intensity ratios evaluated by wavelength dispersive X-ray microanalysis. Alkaline phosphatase was detected on decalcified sections. Some osteoblasts showed degenerative changes and free mitochondria could be seen within the osteoid on the prolongation of their cytoplasmic processes. The mitochondria contained mineralized granules and clusters. Similar granules, numerous clusters and few matrix vesicles were observed within osteoid. The Ca/P intensity ratios (PAO fixed sections) of mitochondrial mineral (11.5 +/- 2.54) were different from the ratio of crystalline mineral in matrix vesicles (1.52 +/- 0.07). Alkaline phosphatase was present along plasmalemma of osteoblasts and around mineral deposits. These results show that in the rat fetus osteoblast mitochondria may be extruded from the cells, and that mitochondrial granules may represent the first mineral deposits in osteoid.

Vitamin D metabolite effects on membrane potential and potassium intracellular activity in rabbit cartilage.

In rabbit cartilage growth plates, the membrane potential, Vm, and potassium intracellular activities, alpha iK, were determined in order to study the effects of long-term (48 h) and short-term (1-2 min) exposures to vitamin D metabolites. Results are as follows: (i) in proliferative cells, Vm was -55.6 +/- 0.2 mV, n = 30, and alpha ik = 50.8 +/- 4.2 mM, n = 22; (ii) in hypertrophic cells, Vm was -35.5 +/- 0.8 mV, n = 88, and alpha iK = 85.1 +/- 5.4 mM, n = 20; (iii) Vm (-44.0 +/- 1.0 mV, n = 33) and alpha iK (114.7 +/- 8.7 mM, n = 14) were increased in metatarsal hypertrophic cells incubated with 10(-10)M of 1,25(OH)2D3 but were unaffected by the presence of 24,25(OH)2D3; (iv) an hyperpolarization of Vm was observed after short-term exposure of the hypertrophic cells to 10(-10)M of 1,25(OH)2D3 (-2.2 +/- 0.2 mV, n = 34) and 24,25(OH)2D3 (-2.2 +/- 0.7 mV, n = 17) but not to 25(OH)D3 (+0.3 +/- 0.8 mV, n = 10).

Bone ultrastructure and x-ray microanalysis of aluminum-intoxicated hemodialyzed patients.

In hemodialyzed patients aluminum (Al) intoxication may induce osteomalacic lesions which are mainly observed when plasma immunoreactive parathyroid hormone (iPTH) concentrations are low, and osteitis fibrosa absent. In this study, the bone tissue of eight hemodialyzed patients with elevated plasma and bone Al concentrations was examined by histomorphometry, electron microscopy, and x-ray microanalysis. Five patients (group 1) had osteomalacia and minimal osteitis fibrosa, three patients (group 2) had severe osteitis fibrosa. In group 1, Al was concentrated at the mineralizing front, in hexagonal structures measuring 200 to 1,000 A which also contained phosphorus, but not calcium. Hydroxyapatite needles had a normal aspect. Osteoblasts appeared inactive. In group 2, Al was also present at the mineralizing layer of osteoid, but, in these cases, in small clusters next to abnormal calcium deposits. Osteoblasts appeared very active. Their mitochondria contained calcium and phosphorus granules, or amorphous material, measuring 1,500 to 2,000 A, emitting x-rays characteristic for Al and phosphorus. These results suggest that secondary hyperparathyroidism, by stimulating the cellular activity, may increase the uptake and release of Al by the osteoblasts. The presence of Al within the mitochondria of these cells may be one of the factors inducing the mineralization defect.

In vitro action of 1,25-dihydroxycholecalciferol and 24,25-dihydroxycholecalciferol on matrix organization and mineral distribution in rabbit growth plate.

Growth plates of 18-day-old rabbits were incubated in a protein-free synthetic medium, either without any additive, with 1,25-dihydroxycholecalciferol [1,25-(OH)2D3] (10(-10) M), with 24,25-dihydroxycholecalciferol [24,25-(OH)2D3] (10(-10) M and 10(-9) M), with both metabolites, or with the ethanol solvent alone. Cartilages, before and after 5 days of incubation, were studied by light and electron microscopy. The intracellular calcium distribution was analyzed by the potassium pyroantimonate method, and the calcium content was verified by x-ray microprobe analysis. When compared to nonincubated samples the cartilages incubated for 5 days without any additive as well as the cartilages incubated with the solvent alone showed excessive hydratation and hypertrophy of the chondrocytes, which had lost their columnar arrangement. The matrix and the cells were devoid of mineral. The ultrastructure of the cells was well preserved. These changes were largely prevented by the presence of both vitamin D3 metabolites. With regard to calcium distribution, 1,25-(OH)2D3 maintained calcium in mitochondria and crystals in matrix vesicles, whereas 24,25-(OH)2D3 only partly maintained mitochondrial mineral. In the chondrocytes incubated with this latter metabolite, small calcium granules were seen in the cytoplasm; most vesicles were devoid of crystals, and amorphous precipitates were seen in the matrix. These data demonstrate the in vitro influence of vitamin D3 metabolites on the organization and mineralization of the cartilage matrix and on the distribution of intracellular calcium in chondrocytes. Furthermore, they support the hypothesis that the in vitro action of 1,25-(OH)2D3 is different from that of 24,25-(OH)2D3 in that 1,25-(OH)2D3 may influence calcium storage in mitochondria and matrix vesicles, whereas 24,25-(OH)2D3 is likely to be involved in calcium transport and release.

Aluminum localization in bone from hemodialyzed patients: relationship to matrix mineralization.

It has been suggested that in uremic bone, aluminum interferes with normal mineralization. Aluminum content and aluminum localization were studied in iliac crest biopsies of two groups of patients on regular hemodialysis; one group had histologic osteomalacia, and little or no bone resorption (group 1); the other, osteitis fibrosa and no mineralization defect (group 2). Group 1 patients had significantly higher plasma aluminum concentrations than those of group 2. No difference was found in bone aluminum content, which was above normal in both groups. In the bone samples of the osteomalacic subjects, aluminum was mainly localized at the limit between osteoid and calcified tissue, the site where the bone mineral is normally first deposited. Osteomalacia could not be related to hypocalcemia or to phosphate depletion. Active vitamin D derivatives (25-hydroxycholecalciferol and 1alpha-hydroxycholecalciferol) failed to prevent or to improve the bone disease. In the bone samples of group 2 subjects, aluminum could not be localized by the methods used, except in the two cases with greatly elevated bone aluminum, where it was mainly localized on cement lines. In group 2 subjects, immunoreactive parathyroid hormone plasma concentration, osteoclast surface, and marrow fibrosis were significantly higher than they were in group 1 subjects. It is concluded that in bone from uremic patients on regular dialysis, aluminum can induce a particular form of osteomalacia, resistant to the vitamin D active derivatives. The bone disease is only observed in the absence of severe secondary hyperparathyroidism. This suggests that parathyroid hormone may be involved in the development of the aluminum-induced mineralization defect.

[Formation of the skeleton. IX. Growth of a long bone: dynamics of diaphysial growth]. / Sur la formation du squelette. IX. Croissance d'un os long: sur la dynamique de la croissance diaphysaire

The diaphysis of a growing long bone is composed of three distinct parts: the bone periosteal collar and the two metaphyses. Each of these parts affects a separate radiographic, microradiographic and histologic appearance. By these means, it is possible to follow the growth and the increase of these parts and thus the relations which exist between them: all together they constitute the "dynamics of diaphyseal growth".

[Formation of the skeleton - growth of a long bone. Growth of the 3d metatarsal bone in the rat]. / Formation du squelette - croissance d'un os long. Sur la croissance du 3e métatarsien du rat

The authors have studied the longitudinal growth of the third metatarsal bone of the rat. This bone has only one epiphyseal plate at its distal extremity and none at its proximal one. Nevertheless it was demonstrated that the proximal extremity was responsible for 16% of the total longitudinal bone growth.