McDonald Kirsten R, Fudge Neva J, Woodrow Janine P, Friel James K, Hoff Ana O, Gagel Robert F, Kovacs Christopher S
Faculty of Medicine-Endocrinology, Memorial University of Newfoundland, St. John's, Canada.
Am J Physiol Endocrinol Metab. 2004 Aug;287(2):E218-26. doi: 10.1152/ajpendo.00023.2004. Epub 2004 Mar 23.
We used the calcitonin/calcitonin gene-related peptide (CGRP)-alpha gene knockout model (Ct/Cgrp null) to determine whether calcitonin and CGRPalpha are required for normal fetal mineral homeostasis and placental calcium transfer. Heterozygous (Ct/Cgrp(+/-)) and Ct/Cgrp null females were mated to Ct/Cgrp(+/-) males. One or two days before term, blood was collected from mothers and fetuses and analyzed for ionized Ca, Mg, P, parathyroid hormone (PTH), and calcitonin. Amniotic fluid was collected for Ca, Mg, and P. To quantify skeletal mineral content, fetuses were reduced to ash, dissolved in nitric acid, and analyzed by atomic absorption spectroscopy for total Ca and Mg. Placental transfer of (45)Ca at 5 min was assessed. Ct/Cgrp null mothers had significantly fewer viable fetuses in utero compared with Ct/Cgrp(+/-) and wild-type mothers. Fetal serum Ca, P, and PTH did not differ by genotype, but serum Mg was significantly reduced in null fetuses. Placental transfer of (45)Ca at 5 min was normal. The calcium content of the fetal skeleton was normal; however, total Mg content was reduced in Ct/Cgrp null skeletons obtained from Ct/Cgrp null mothers. In summary, maternal absence of calcitonin and CGRPalpha reduced the number of viable fetuses. Fetal absence of calcitonin and CGRPalpha selectively reduced serum and skeletal magnesium content but did not alter ionized calcium, placental calcium transfer, and skeletal calcium content. These findings indicate that calcitonin and CGRPalpha are not needed for normal fetal calcium metabolism but may regulate aspects of fetal Mg metabolism.
我们使用降钙素/降钙素基因相关肽(CGRP)-α基因敲除模型(Ct/Cgrp基因缺失型)来确定降钙素和CGRPα对于正常胎儿矿物质稳态及胎盘钙转运是否必需。将杂合子(Ct/Cgrp(+/-))和Ct/Cgrp基因缺失型雌性小鼠与Ct/Cgrp(+/-)雄性小鼠交配。在足月前1或2天,采集母鼠和胎儿的血液,分析其中的离子钙、镁、磷、甲状旁腺激素(PTH)和降钙素。收集羊水分析其中的钙、镁和磷。为了量化骨骼矿物质含量,将胎儿烧成灰,溶解于硝酸中,然后用原子吸收光谱法分析总钙和镁含量。评估5分钟时(45)Ca的胎盘转运情况。与Ct/Cgrp(+/-)和野生型母鼠相比,Ct/Cgrp基因缺失型母鼠子宫内存活胎儿数量显著减少。胎儿血清钙、磷和PTH在不同基因型间无差异,但基因缺失型胎儿的血清镁显著降低。5分钟时(45)Ca的胎盘转运正常。胎儿骨骼的钙含量正常;然而,从Ct/Cgrp基因缺失型母鼠获得的Ct/Cgrp基因缺失型胎儿骨骼中的总镁含量降低。总之,母鼠缺乏降钙素和CGRPα会减少存活胎儿数量。胎儿缺乏降钙素和CGRPα会选择性降低血清和骨骼中的镁含量,但不会改变离子钙、胎盘钙转运和骨骼钙含量。这些发现表明,正常胎儿钙代谢不需要降钙素和CGRPα,但它们可能调节胎儿镁代谢的某些方面。
