Chemical dissection of eIF4A-mediated translation

Bordeleau, Marie-Eve

January 2007

No description available.

RNA, Messenger -- metabolism.

Benzofurans -- pharmacology.

Epoxy Compounds -- pharmacology.

Sterols -- pharmacology.

Ontogeny of Adenosine Deaminase in the Mouse Decidua and Placenta: Immunolocalization and Embryo Transfer Studies

Knudsen, T B., Blackburn, M. R., Chinsky, J. M., Airhart, M J., Kellems, R. E.

01 January 1991

This study has determined the cellular site of adenosine deaminase (ADA) expression in the mouse during development from Days 5 through 13 (day vaginal plug was found = Day 0) of gestation. Developmental expression of ADA progressed in two overlapping phases defined genetically (maternal vs. embryonal) and according to region (decidual vs. placental). In the first phase, ADA enzyme activity increased almost 200-fold in the antimesometrial region (decidua capsularis + giant trophoblast cells) from Days 6 through 9 of gestation but remained low in the mesometrial region. Immunohistochemical staining revealed a major localization of ADA to the secondary decidua. In the second phase, ADA activity increased several-fold in the placenta (labyrinth + basal zones) from Days 9 through 13 of gestation but remained low in the embryo proper. Immunohistochemical staining revealed a major localization of ADA to secondary giant cells, spongiotrophoblast, and labyrinthine trophoblast. Regression of decidua capsularis and growth of the spongiotrophoblast population accounted for an antimesometrial to placental shift in both ADA enzyme activity and a 40-kDa immunoreactive protein band. To verify a shift from maternal to fetal expression, studies were performed with two strains of mice (ICR, Eday) homozygous for a different ADA isozyme (ADA-A, ADA-B). Blastocysts homozygous for Adab were transferred to the uterus of pseudopregnant female recipients homozygous for Adaa. The isozymic pattern in chimeric embryo-decidual units analyzed at Days 7, 9, 11, and 13 revealed a predominance of maternal-encoded enzyme at Days 7 through 11 of gestation and a shift to fetal-encoded enzyme by Day 13. Thus, maternal expression of ADA in the antimesometrial decidua may play a role during establishment of the embryo in the uterine environment, whereas fetal expression of ADA in the trophoblast might be important to placentation.

adenosine deaminase (metabolism)

animals

Decidua (enzymology)

embryo transfer

female

gestational age

immunohistochemistry

mice

inbred ICR

placenta (enzymology)

pregnancy

RNA

messenger (metabolism)

trophoblasts (enzymology)

Photoperiod Regulation of Mineralocorticoid Receptor mRNA Expression in Hamster Hippocampus

Lance, S J., Miller, S. C., Holtsclaw, L. I, Turner, B A.

12 January 1998

Hippocampal mineralocorticoid receptor mRNA expression was increased in male hamsters exposed to 18 days of short photoperiod relative to animals maintained under long day illumination (p < 0.05). Short day hamsters were also characterized by increased weight gain, and heavier adrenal glands (p < 0.05). The larger adrenals showed selective increases in the widths of the zonae reticularis and glomerulosa (p < 0.001). Incidences of torpor and reduced body temperature were observed in the short day animals. No changes were found in reproductive organ weights, systolic blood pressure, open-field behavior, or stress levels of plasma corticosteroids. We conclude that the hamster brain-adrenal axis responds rapidly to changes in photoperiod, raising the possibility that this axis is a primary mediator of shortened photoperiod responses.

adrenal cortex hormones (blood)

animals

cricetinae

eating

gene expression (physiology)

hippocampus (chemistry

metabolism)

male

mesocricetus

organ size

photoperiod

pituitary-adrenal system (metabolism)

RNA

messenger (metabolism)

receptors

mineralocorticoid (genetics)