Deficiency of 3-hydroxy-3-methylglutaryl-CoA lyase has been studied in 11 Saudi infants. The diagnosis was established by the measurement of enzyme activity in lymphocytes, in fibroblasts and, in seven patients, by the gas chromatography/mass spectrometer pattern of excreted organic acids in the urine. In seven infants the disease caused a devastating acidotic attack within the first day of life, while in two the crisis occurred by the third day of life. In two infants from one family the disease appeared later in infancy. The clinical presentation of an acidotic attack is lethargy, hyperpnoea, tachypnoea and seizures, either at birth (two infants), following first feeding (in five infants), or following vomiting or refusal of food in later infancy. The acidotic attacks recurred later in life following minor illness or refusal to eat. The acidosis of this enzyme deficiency progresses rapidly, leading to cardiopulmonary arrest and death within hours of onset unless treated promptly. In four surviving infants diagnosed and treated early, development is normal. Magnetic resonance and computerized tomography brain scans in these infants, however, show white matter lesions and mild atrophy.
We have examined clonal murine calvarial MC3T3-E1 cells obtained from different sources to compare their osteoblastic features (alkaline phosphatase [ALP], cyclic adenosine monophosphate [cAMP] response to parathyroid hormone, prostaglandin E 2 (PGE 2 ) and PGE 1 , bradykinin-induced production of PGE 2 ). It was found that the sublines investigated showed large variation of the above-mentioned parameters, which may be attributed to distinct differentiated stages of osteoblast development. Increase of ALP activity was paralleled by an increase in cAMP accumulation in response to the above-mentioned agents. The most striking difference was observed with bradykinin-induced production of PGE 2 . Early stage cells (low ALP) produced high levels of PGE 2 , whereas cells with high ALP activity showed no bradykinin stimulation at all. This was consistent with the results of specific binding of 3 H-bradykinin to its receptor and also correlated well with the bradykinin-induced signal transduction sequence (inositol triphosphate liberation and elevation of intracellular calcium levels). This was confirmed by Northern blot analysis of bradykinin receptor mRNA expression. These results indicate that the widely used osteoblast-like cell line MC3T3-E1 is synonymous for multiple sublines, representing different stages of osteoblast development. These sublines were most likely emerging from the early stage cell line due to the applied culture conditions. Moreover, distinct biochemical features are displayed in correlation to the differentiation stage, thus providing a useful model to study the molecular mechanism of osteoblast maturation. (J Bone Miner Res 1997; 12:541-551)
The bone-resorbing activity of thyroid hormones was evaluated in neonatal mouse calvaria maintained in organ culture for 96 h. Thyroxine (T4) between 10(-8) and 10(-5) mol/liter and triiodothyronine (T3) between 10(-8) and 10(-7) mol/liter caused a dose-dependent release of calcium from cultured bone. The thyroid hormone effect was delayed in onset for at least 24 h, and after 96 h of culture amounted to 50-90% of the bone-resorbing activity of 10(-8) mol/liter parathyroid hormone (PTH). The bone-resorbing action of T4 as well as of T3 was completely blocked by 100 U/ml interferon-gamma (IF-gamma) or 20 mU/ml salmon calcitonin (CT). "Escape" from CT inhibition, which is a well-known phenomenon in the action of PTH, was not observed with thyroid hormone-mediated bone resorption. Thyroid hormone treatment of cultured calvaria resulted in a gradual increase between 48 and 96 h of medium concentrations of prostaglandin (PG) E2 and particularly of 6-keto-PGF1 alpha, the inactive metabolite of prostacyclin (PGI2). The release of PGF2 alpha in general was not significantly affected. Although the effect of thyroid hormones on PG release from cultured calvaria was completely abolished by 5 x 10(-7) mol/liter indomethacin, in some experiments indomethacin reduced thyroid hormone-mediated bone resorption by only 50%. This indicates that thyroid hormone action on bone is also mediated by a PG-independent mechanism.
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