Expression of glucose transporters in the endometrium and early conceptus membranes of the horse.

INTRODUCTION: Glucose is the primary energy substrate for early conceptus development and, for the first 40 days of gestation, the equine conceptus depends solely on glucose available in the histotroph; thereafter, histotrophic glucose provision continues to support transport across the definitive placenta. METHODS: To investigate glucose provision routes during early equine pregnancy we examined expression of glucose transporters in conceptus membranes and endometrium recovered on days 7, 14, 21 and 28 after ovulation. To further differentiate the contributions of maternal progesterone priming and conceptus-endometrium crosstalk in regulating glucose transporter expression, day 8 embryos were transferred to recipient mares on day 8 (synchronous) or day 3 (asynchronous) after ovulation; conceptuses and endometrium were recovered 6 or 11 days later. RESULTS: The glucose transporters SLC2A1, 2A3, 2A4, 2A8, 2A10 and 5A1 were expressed in equine endometrium. In conceptus membranes, expression of SLC2A1-3, 2A5, 2A8, 2A10, 5A1 and 5A11 increased from day 14, and SLC2A1 protein was highly abundant on the apical trophectodermal membrane and in the endoderm. Asynchronous embryo transfer (ET) resulted in reduced SLC2A1 expression in both the endometrium and conceptus membranes. DISCUSSION: A wide range of glucose transporters are expressed in the pre-implantation equine conceptus and endometrium, presumably to ensure adequate glucose provision to the developing embryo. Endometrial expression of SLC2A1 appears to be regulated by a combination of progesterone-priming and conceptus signalling, and its delayed upregulation after asynchronous ET may contribute to the observed delay in conceptus development.

Amino acid transporter expression in the endometrium and conceptus membranes during early equine pregnancy.

Maternally derived amino acids (AA) are essential for early conceptus development, and specific transporters enhance histotrophic AA content during early ruminant pregnancy. In the present study we investigated AA transporter expression in early equine conceptuses and endometrium, during normal pregnancy and after induction of embryo-uterus asynchrony. 'Normal' conceptuses and endometrium were recovered on Days 7, 14, 21 and 28 after ovulation. To investigate asynchrony, Day 8 embryos were transferred to recipient mares on Day 8 or Day 3, and conceptuses were recovered 6 or 11 days later. Endometrial expression of AA transporters solute carrier family 38 member 2 (SLC38A2), solute carrier family 1 members 4 and 5 (SLC1A4 and SLC1A5) increased during early pregnancy, whereas solute carrier family 7 member 8 (SLC7A8), solute carrier family 43 member 2 (SLC43A2) and solute carrier family 7 member 1 (SLC7A1) SLC7A8, SLC43A2 and SLC7A1 expression decreased and the expression of solute carrier family 1 member 1(SLC1A1) and solute carrier family 7 member 2 (SLC7A2) was unaffected. In conceptus membranes, most transporters studied were upregulated, either after Day 14 (solute carrier family 7 member 5 - SLC7A5, SLC38A2, SLC1A4, SLC1A5 and SLC7A1) or Day 21 (SLC43A2 and SLC7A2). Asynchronous ET indicated that endometrial SLC1A5, SLC1A1 and SLC7A8 are primarily regulated by conceptus factors and/or longer exposure to progesterone. In conclusion, AA transporters are expressed in early equine conceptus membranes and endometrium in specific spatiotemporal patterns. Because conceptuses express a wider range of transporters than the endometrium, we speculate that the equine yolk sac has recruited AA transporters to ensure adequate nutrient provision during an unusually long preimplantation period.