Abstract

Corneal Spheres derived from Human Embryonic and Human Pluripotent Parthenogenetic Stem Cells

Alina Ostrowska, Jackie Cochran, Larissa Agapova, Amber Buz’Zard, Nikolay Turovets, Jeremy Hammond, Irina Turovets, Subramanian Krishnakumar, Andrey Semechkin, Judith Kelleher Andersson, Jeffrey Janus and Mari Csete~

Corneal blindness is common. Cornea transplants are the most commonly performed organ transplants, but the need for corneal grafts worldwide far outweighs the supply of healthy donor corneas. Here we describe a differentia - tion protocol that yields corneal orbs from human embryonic stem cells (hESC) as well as from human pluripotent parthenogenetic stem cells (hpSC), and therefore can be manufactured free of transmissible pathogens. Cornea and other tissues generated from parthenogenetic stem cells that are homozygous at HLA loci have a distinct im - munologic advantage over fully allogeneic grafts, and this report is the first to describe multilayered cornea gener - ated from hpSC. The differentiated corneal product is layered and anatomically similar to normal human cornea, expresses appropriate corneal markers at the mRNA and protein (and secreted protein) levels, and is permeable to topical ophthalmic drugs. This 3D stem cell-derived cornea is a foundational step in development of appropriately organized, functional corneal grafts from hESC and hpSC for use in in vitro assays as well as regenerative therapies.