Alan Bolnick1, Mohammed Abdulhasan2, Brian Kilburn2, Yufen Xie3, Mindie Howard4, Paul Andresen5, Alexandra M Shamir6, Jing Dai2, Elizabeth E Puscheck2, Daniel A Rappolee2,7,8,9,10. 1. CS Mott Center for Human Growth and Development, Department of Ob/Gyn, Reproductive Endocrinology and Infertility, Wayne State University School of Medicine, 275 East Hancock, Detroit, MI, 48201, USA. abolnick@med.wayne.edu. 2. CS Mott Center for Human Growth and Development, Department of Ob/Gyn, Reproductive Endocrinology and Infertility, Wayne State University School of Medicine, 275 East Hancock, Detroit, MI, 48201, USA. 3. Fertility and Surgical Associates of California, Thousand Oaks, CA, 91361, USA. 4. EmbryoTech Laboratories, 140 Hale Street, Haverhill, MA, 01830, USA. 5. Ob/Gyn, IVF Clinic, University Physician Group, Wayne State University School of Medicine, 26400 W 12 Mile Road, Suite 140, Southfield, MI, 48034, USA. 6. University of Utah, 201 Presidents Circle, Salt Lake City, UT, 84112, USA. 7. Program for Reproductive Sciences and Department of Physiology, Wayne State University School of Medicine, Detroit, MI, 48201, USA. 8. Karmanos Cancer Institute, Wayne State University School of Medicine, Detroit, MI, 48201, USA. 9. Institutes for Environmental Health Science, Wayne State University School of Medicine, Detroit, MI, 48201, USA. 10. Department of Biology, University of Windsor, Windsor, ON, N9B 3P4, Canada.
Abstract
PURPOSE: The purpose of the present study is to test whether metformin, aspirin, or diet supplement (DS) BioResponse-3,3'-Diindolylmethane (BR-DIM) can induce AMP-activated protein kinase (AMPK)-dependent potency loss in cultured embryos and whether metformin (Met) + Aspirin (Asa) or BR-DIM causes an AMPK-dependent decrease in embryonic development. METHODS: The methods used were as follows: culture post-thaw mouse zygotes to the two-cell embryo stage and test effects after 1-h AMPK agonists' (e.g., Met, Asa, BR-DIM, control hyperosmotic stress) exposure on AMPK-dependent loss of Oct4 and/or Rex1 nuclear potency factors, confirm AMPK dependence by reversing potency loss in two-cell-stage embryos with AMPK inhibitor compound C (CC), test whether Met + Asa (i.e., co-added) or DS BR-DIM decreases development of two-cell to blastocyst stage in an AMPK-dependent (CC-sensitive) manner, and evaluate the level of Rex1 and Oct4 nuclear fluorescence in two-cell-stage embryos and rate of two-cell-stage embryo development to blastocysts. RESULT(S): Met, Asa, BR-DIM, or hyperosmotic sorbitol stress induces rapid ~50-85 % Rex1 and/or Oct4 protein loss in two-cell embryos. This loss is ~60-90 % reversible by co-culture with AMPK inhibitor CC. Embryo development from two-cell to blastocyst stage is decreased in culture with either Met + Asa or BR-DIM, and this is either >90 or ~60 % reversible with CC, respectively. CONCLUSION: These experimental designs here showed that Met-, Asa-, BR-DIM-, or sorbitol stress-induced rapid potency loss in two-cell embryos is AMPK dependent as suggested by inhibition of Rex1 and/or Oct4 protein loss with an AMPK inhibitor. The DS BR-DIM or fertility drugs (e.g., Met + Asa) that are used to enhance maternal metabolism to support fertility can also chronically slow embryo growth and block development in an AMPK-dependent manner.
PURPOSE: The purpose of the present study is to test whether metformin, aspirin, or diet supplement (DS) BioResponse-3,3'-Diindolylmethane (BR-DIM) can induce AMP-activated protein kinase (AMPK)-dependent potency loss in cultured embryos and whether metformin (Met) + Aspirin (Asa) or BR-DIM causes an AMPK-dependent decrease in embryonic development. METHODS: The methods used were as follows: culture post-thaw mouse zygotes to the two-cell embryo stage and test effects after 1-h AMPK agonists' (e.g., Met, Asa, BR-DIM, control hyperosmotic stress) exposure on AMPK-dependent loss of Oct4 and/or Rex1 nuclear potency factors, confirm AMPK dependence by reversing potency loss in two-cell-stage embryos with AMPK inhibitor compound C (CC), test whether Met + Asa (i.e., co-added) or DS BR-DIM decreases development of two-cell to blastocyst stage in an AMPK-dependent (CC-sensitive) manner, and evaluate the level of Rex1 and Oct4 nuclear fluorescence in two-cell-stage embryos and rate of two-cell-stage embryo development to blastocysts. RESULT(S): Met, Asa, BR-DIM, or hyperosmotic sorbitol stress induces rapid ~50-85 % Rex1 and/or Oct4 protein loss in two-cell embryos. This loss is ~60-90 % reversible by co-culture with AMPK inhibitor CC. Embryo development from two-cell to blastocyst stage is decreased in culture with either Met + Asa or BR-DIM, and this is either >90 or ~60 % reversible with CC, respectively. CONCLUSION: These experimental designs here showed that Met-, Asa-, BR-DIM-, or sorbitol stress-induced rapid potency loss in two-cell embryos is AMPK dependent as suggested by inhibition of Rex1 and/or Oct4 protein loss with an AMPK inhibitor. The DS BR-DIM or fertility drugs (e.g., Met + Asa) that are used to enhance maternal metabolism to support fertility can also chronically slow embryo growth and block development in an AMPK-dependent manner.
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Authors: Alan Bolnick; Awoniyi O Awonuga; Yu Yang; Mohammed Abdulhasan; Yufen Xie; Sichang Zhou; Elizabeth E Puscheck; Daniel A Rappolee Journal: J Assist Reprod Genet Date: 2017-06-24 Impact factor: 3.412
Authors: Yu Yang; Zhongliang Jiang; Alan Bolnick; Jing Dai; Elizabeth E Puscheck; Daniel A Rappolee Journal: J Reprod Dev Date: 2016-11-18 Impact factor: 2.214