Supplementary Material for: Effects of Antenatal Steroid Therapy on Neurodevelopment in an IUGR Mouse Model Velayo C. Ito T. Chisaka H. Yaegashi N. Okamura K. Kimura Y. 10.6084/m9.figshare.5121238.v1 https://karger.figshare.com/articles/dataset/Supplementary_Material_for_Effects_of_Antenatal_Steroid_Therapy_on_Neurodevelopment_in_an_IUGR_Mouse_Model/5121238 <i>Background/Objective:</i> To investigate the neurodevelopmental response in postnatal mice secondary to antenatal steroid treatment in association with maternal protein restriction. <i>Methods:</i> C57BL/6N pregnant mice (n = 24; 4 per treatment group) were administered control (C) or protein-restricted (PR) diets and subjected to daily subcutaneous injection stress during late gestation (E10–E17) with either 100 µl/kg of dexamethasone sodium phosphate in normosaline (C-D/S, PR-D/S) or normosaline alone (C-S, PR-S). Non-treatment groups were also included (C, PR). Brain samples of pups were collected on postnatal day 7 and analyzed by immunohistochemistry and qRT-PCR. <i>Results:</i> Neonatal weights in the treatment groups were smaller than their counterparts in the C group, but there were no significant differences in brain size. Immunohistochemical evaluation of neuroglial cells revealed a pronounced effect of protein restriction on oligodendrocytes and oligodendrocyte precursor cells with distinct fetal responses to stress and dexamethasone. Further evaluation using quantitative RNA analysis showed significant activation of <i>Galr1</i>, <i>Galr2</i>, <i>Igfbp-1</i>,<i> Igfbp-3</i>, <i>Igfbp-6</i>, and <i>Fgf2</i> by 1- to 2.5-fold in the PR-D/S group and by much higher increments, 1- to 10.5-fold, in the PR-S group. <i>Conclusion:</i> This preliminary investigation revealed the possible role of dexamethasone in further increasing vulnerability to cell damage in injury-prone neuroglial cells. The distribution of key glial markers and the overexpression of several neurotrophic factors depicted ongoing cellular adaptation. 2010-07-31 00:00:00 Antenatal steroid therapy Dexamethasone Intrauterine growth restriction mouse model Maternal protein restriction, mice Postnatal neurodevelopment