Wn are different from those caused by parental dietinduced vitamin E deficiency. Although the a-tocopherol concentration of the E- embryos was .50-fold decreased from the control embryos, they still possessed detectable amounts of vitamin E. This is likely due to the specific allocation of maternal vitamin E, and its incorporation into the yolk of the developing oocyte. Loss of TTP, however, precludes the specific trafficking and localization of vitamin E, mimicking an absolute deficient state regardless of the ubiquitous yolk sac supply. Furthermore, in our previous studies vitamin E Oltipraz deficiency was imposed by parental diet, while TTP knockdown was performed using embryos from fish fed commercial lab diets. This difference in parental diets affects not only the nutrient composition but the transcriptional profiles as well (unpublished observation). Notably, as morphologic outcomes from each study are ultimately due to vitamin E deficiency, they likely involve common mechanisms. The loss of TTP function results in malformations along the anterior/posterior axis (Figure 3C) and early life-stage mortality. We theorize that TTP mediates a-tocopherol transfer to critical sites in the embryo during early vertebrate development and thus, TTP is required for embryogenesis. It is important to note that this requirement for TTP takes place during a time analogous to the first 20 days of human gestation. This window is prior to the detection of most pregnancies, and often before the consumption of prenatal supplements. This early requirement combined witha-Tocopherol Transfer Protein in Early DevelopmentFigure 2. TTP expression is dynamic in the developing zebrafish. A. Embryonic TTP transcription increases during the first 24 hpf. Expression normalized to odc1 expression, and values are expressed as fold change compared to 6 hpf. Data shown as mean 6 SEM, 6 hpf n = 4, 9?2 n = 6, 13?18 n = 9, and 19?4 n = 11 replicates (30 embryos per replicate). B-G. Whole mount in situ hybridization of ttpa reveals the patterning of mRNA expression. B. A lateral view of a whole mount embryo at 12 hpf shows fairly even distribution, however, in C a dorsal view of the rostral region with the yolk removed shows specific staining along what may be the developing neural tube. D. At 17 hpf expression remains along the length of the embryo, concentrating in the MedChemExpress 101043-37-2 deeper cells, closer to the yolk sac. E. A dorsal view of the developing head at 17 hpf, the eyes and neural tube is where the expression appears to be localized (outlined). F. By 24 hpf the staining is seen only in the regions of the developing brain, eyes and tail bud. G. Dorsal view depicts brain and eye specific patterning. Yolk sacs were manually removed to reduce color interference, and for ease of positioning. fb = forebrain, mb = midbrain, * = midbrain-hindbrain boundary. doi:10.1371/journal.pone.0047402.gthe inadequate a-tocopherol consumption [31] could be responsible for early failures in human pregnancy. The role of TTP and a-tocopherol in post-implantation development needs to be addressed, as these results highlight the role of TTP and ramifications of its loss. In summary, we demonstrate that adult zebrafish express TTP, which is homologous to the human protein. As development is a highly regulated process and genes are specifically controlled in both a spatial and temporal fashion, we assayed both the quantity and location of Ttpa during the first day of zebrafish development. The function of TTP.Wn are different from those caused by parental dietinduced vitamin E deficiency. Although the a-tocopherol concentration of the E- embryos was .50-fold decreased from the control embryos, they still possessed detectable amounts of vitamin E. This is likely due to the specific allocation of maternal vitamin E, and its incorporation into the yolk of the developing oocyte. Loss of TTP, however, precludes the specific trafficking and localization of vitamin E, mimicking an absolute deficient state regardless of the ubiquitous yolk sac supply. Furthermore, in our previous studies vitamin E deficiency was imposed by parental diet, while TTP knockdown was performed using embryos from fish fed commercial lab diets. This difference in parental diets affects not only the nutrient composition but the transcriptional profiles as well (unpublished observation). Notably, as morphologic outcomes from each study are ultimately due to vitamin E deficiency, they likely involve common mechanisms. The loss of TTP function results in malformations along the anterior/posterior axis (Figure 3C) and early life-stage mortality. We theorize that TTP mediates a-tocopherol transfer to critical sites in the embryo during early vertebrate development and thus, TTP is required for embryogenesis. It is important to note that this requirement for TTP takes place during a time analogous to the first 20 days of human gestation. This window is prior to the detection of most pregnancies, and often before the consumption of prenatal supplements. This early requirement combined witha-Tocopherol Transfer Protein in Early DevelopmentFigure 2. TTP expression is dynamic in the developing zebrafish. A. Embryonic TTP transcription increases during the first 24 hpf. Expression normalized to odc1 expression, and values are expressed as fold change compared to 6 hpf. Data shown as mean 6 SEM, 6 hpf n = 4, 9?2 n = 6, 13?18 n = 9, and 19?4 n = 11 replicates (30 embryos per replicate). B-G. Whole mount in situ hybridization of ttpa reveals the patterning of mRNA expression. B. A lateral view of a whole mount embryo at 12 hpf shows fairly even distribution, however, in C a dorsal view of the rostral region with the yolk removed shows specific staining along what may be the developing neural tube. D. At 17 hpf expression remains along the length of the embryo, concentrating in the deeper cells, closer to the yolk sac. E. A dorsal view of the developing head at 17 hpf, the eyes and neural tube is where the expression appears to be localized (outlined). F. By 24 hpf the staining is seen only in the regions of the developing brain, eyes and tail bud. G. Dorsal view depicts brain and eye specific patterning. Yolk sacs were manually removed to reduce color interference, and for ease of positioning. fb = forebrain, mb = midbrain, * = midbrain-hindbrain boundary. doi:10.1371/journal.pone.0047402.gthe inadequate a-tocopherol consumption [31] could be responsible for early failures in human pregnancy. The role of TTP and a-tocopherol in post-implantation development needs to be addressed, as these results highlight the role of TTP and ramifications of its loss. In summary, we demonstrate that adult zebrafish express TTP, which is homologous to the human protein. As development is a highly regulated process and genes are specifically controlled in both a spatial and temporal fashion, we assayed both the quantity and location of Ttpa during the first day of zebrafish development. The function of TTP.