Sanches Juliane C, Favaro Rodolfo R, Barrence Fernanda C, Bevilacqua Estela, Fortes Zuleica B, Zorn Telma M T
Department of Cell and Developmental Biology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil.
Department of Cell and Developmental Biology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil.
Placenta. 2017 May;53:1-7. doi: 10.1016/j.placenta.2017.03.005. Epub 2017 Mar 9.
We have previously shown that the development of complications in the early pregnant decidua and myometrium in mice correlates with diabetes progression. In the current study, we investigated the influence of diabetes progression on the placental extracellular matrix (ECM) and on fetal development at the end of pregnancy.
Alloxan-induced type 1 diabetic female mice were bred either 30-50 days after diabetes induction (D) or 90-110D. Fetal and placental weights were registered at the 19th day of pregnancy together with analysis of gene expression, deposition and turnover of the placental ECM.
The short-term diabetic group (30-50D) showed elevated embryonic losses and underweight fetuses (89%) with normal weight placentas. In contrast, the long-term group (90-110D) had increased malformations/fetal deaths and underweight fetuses (42%) and heavy placentas (50%). Normal-weight fetuses from the long-term group had placentas with either regular weight and fetal/placental weight ratio or increased weight and low fetal/placental weight ratio. Furthermore, the placentas of the short-term group showed alterations in the synthesis and deposition of collagen types I and V and in the activity of MMP2 whereas placentas of the 90-110D group presented alterations in collagen type III and V and MMP9.
Diabetes progression promoted distinct outcomes in pregnancy. Modifications of both synthesis and turnover of ECM occurred even before changes of placental weight were detected. Adjustment of fetal/placental weight ratio or placental enlargement restored normal growth in part of the fetuses from the long-term group.
我们之前已经表明,小鼠妊娠早期蜕膜和子宫肌层并发症的发生与糖尿病进展相关。在本研究中,我们调查了糖尿病进展对妊娠末期胎盘细胞外基质(ECM)和胎儿发育的影响。
用四氧嘧啶诱导的1型糖尿病雌性小鼠在糖尿病诱导后30 - 50天(D)或90 - 110天进行交配。在妊娠第19天记录胎儿和胎盘重量,并分析胎盘ECM的基因表达、沉积和周转情况。
短期糖尿病组(30 - 50D)胚胎损失增加,胎儿体重过轻(89%),而胎盘重量正常。相比之下,长期糖尿病组(90 - 110D)畸形/胎儿死亡增加,胎儿体重过轻(42%),胎盘重量增加(50%)。长期糖尿病组体重正常的胎儿,其胎盘重量正常且胎儿/胎盘重量比正常,或胎盘重量增加但胎儿/胎盘重量比降低。此外,短期糖尿病组胎盘的I型和V型胶原合成和沉积以及MMP2活性发生改变,而90 - 110D组胎盘的III型和V型胶原以及MMP9发生改变。
糖尿病进展在妊娠中导致了不同的结果。在检测到胎盘重量变化之前,ECM的合成和周转就已经发生了改变。调整胎儿/胎盘重量比或胎盘增大使长期糖尿病组部分胎儿的生长恢复正常。
