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Blastocyst development after fertilization with in vitro spermatids derived from nonhuman primate embryonic stem cells

Sujittra Khampang, In Ki Cho, Kanchana Punyawai, Brittany Gill, Jacqueline N. Langmo, Shivangi Nath, Katherine W. Greeson, Krista Maye Symosko, Kristen L. Fowler, Siran Tian, John P. Statz, Alyse N. Steves, Rangsun Parnpai, Michael A. White, Jon D. Hennebold, Kyle E. Orwig, Calvin Simerly, Gerald Schatten, Charles A. Easley

2021F&S Science18 citationsDOIOpen Access PDF

Abstract

ObjectiveTo demonstrate that functional spermatids can be derived in vitro from nonhuman primate pluripotent stem cells.DesignGreen fluorescent protein-labeled, rhesus macaque nonhuman primate embryonic stem cells (nhpESCs) were differentiated into advanced male germ cell lineages using a modified serum-free spermatogonial stem cell culture medium. In vitro-derived round spermatid-like cells (rSLCs) from differentiated nhpESCs were assessed for their ability to fertilize rhesus oocytes by intracytoplasmic sperm(atid) injection.SettingMultiple academic laboratory settings.Patient(s)Not applicable.Intervention(s)Intracytoplasmic sperm(atid) injection of in vitro-derived spermatids from nhpESCs into rhesus macaque oocytes.Main Outcome Measure(s)Differentiation into spermatogenic cell lineages was measured through multiple assessments including ribonucleic acid sequencing and immunocytochemistry for various spermatogenic markers. In vitro spermatids were assessed for their ability to fertilize oocytes by intracytoplasmic sperm(atid) injection by assessing early fertilization events such as spermatid deoxyribonucleic acid decondensation and pronucleus formation/apposition. Preimplantation embryo development from the one-cell zygote stage to the blastocyst stage was also assessed.Result(s)Nonhuman primate embryonic stem cells can be differentiated into advanced germ cell lineages, including haploid rSLCs. These rSLCs undergo deoxyribonucleic acid decondensation and pronucleus formation/apposition when microinjected into rhesus macaque mature oocytes, which, after artificial activation and coinjection of ten-eleven translocation 3 protein, undergo embryonic divisions with approximately 12% developing successfully into expanded blastocysts.Conclusion(s)This work demonstrates that rSLCs, generated in vitro from primate pluripotent stem cells, mimic many of the capabilities of in vivo round spermatids and perform events essential for preimplantation development. To our knowledge, this work represents, for the first time, that functional spermatid-like cells can be derived in vitro from primate pluripotent stem cells. To demonstrate that functional spermatids can be derived in vitro from nonhuman primate pluripotent stem cells. Green fluorescent protein-labeled, rhesus macaque nonhuman primate embryonic stem cells (nhpESCs) were differentiated into advanced male germ cell lineages using a modified serum-free spermatogonial stem cell culture medium. In vitro-derived round spermatid-like cells (rSLCs) from differentiated nhpESCs were assessed for their ability to fertilize rhesus oocytes by intracytoplasmic sperm(atid) injection. Multiple academic laboratory settings. Not applicable. Intracytoplasmic sperm(atid) injection of in vitro-derived spermatids from nhpESCs into rhesus macaque oocytes. Differentiation into spermatogenic cell lineages was measured through multiple assessments including ribonucleic acid sequencing and immunocytochemistry for various spermatogenic markers. In vitro spermatids were assessed for their ability to fertilize oocytes by intracytoplasmic sperm(atid) injection by assessing early fertilization events such as spermatid deoxyribonucleic acid decondensation and pronucleus formation/apposition. Preimplantation embryo development from the one-cell zygote stage to the blastocyst stage was also assessed. Nonhuman primate embryonic stem cells can be differentiated into advanced germ cell lineages, including haploid rSLCs. These rSLCs undergo deoxyribonucleic acid decondensation and pronucleus formation/apposition when microinjected into rhesus macaque mature oocytes, which, after artificial activation and coinjection of ten-eleven translocation 3 protein, undergo embryonic divisions with approximately 12% developing successfully into expanded blastocysts. This work demonstrates that rSLCs, generated in vitro from primate pluripotent stem cells, mimic many of the capabilities of in vivo round spermatids and perform events essential for preimplantation development. To our knowledge, this work represents, for the first time, that functional spermatid-like cells can be derived in vitro from primate pluripotent stem cells.

Topics & Concepts

BiologyBlastocystEmbryonic stem cellSpermatidCell biologyStem cellPronucleusGerm cellAndrologyEmbryogenesisSpermEmbryoGeneticsZygoteGeneMedicineSperm and Testicular FunctionReproductive Biology and FertilityPluripotent Stem Cells Research
Blastocyst development after fertilization with in vitro spermatids derived from nonhuman primate embryonic stem cells | Litcius