Abstract
Uterus transplantation is an experimental infertility treatment for women with uterine factor infertility. During donor uterus retrieval and subsequent storage, ischemia and other stressors are likely to occur, resulting in the delayed restoration of organ function and increased graft rejection. The uterus expresses connexin-based hemichannels, the opening of which can promote ischemic cell death, as well as gap junctions that may expand cell death by bystander signaling. We investigated if connexin channel inhibition with connexin channel inhibitor Gap27 could protect the uterus against cell death during the storage period. The study involved 9 female patients undergoing gender-change surgery. Before uterus removal, it was exposed to in situ warm ischemia with or without reperfusion. Uterus biopsies were taken before, during, and after ischemia, with or without reperfusion, and were subsequently stored under cold (4ᵒC) or warm (37ᵒC) conditions. TUNEL cell death assay was done at various time points along the combined in vivo/ex vivo experimental timeline. We found that Gap27 protected against storage-related cell death under cold but not warm conditions when the uterus had experienced in situ ischemia/reperfusion. For in situ brief ischemia without reperfusion, Gap27 reduction of cell death was delayed and significantly less, suggesting that protection critically depends on processes initiated when the organ was still in the donor. Thus, the inclusion of the connexin channel inhibitor Gap27 during cold storage protects the uterus against cell death, and the degree of protection depends on the history of exposure to warm ischemia. Gap27 protection may be indicated for uteri from deceased donors, in which ischemia is likely because life-saving organs have retrieval priority.
Highlights
Uterus transplantation is an experimental infertility treatment option for women with a dysfunctional or absent uterus, known as absolute uterine factor infertility
The first human uterus transplantation from a multi-organ brain-dead donor was performed by Ozkan, where the uterus was the first organ to be retrieved, creating the best conditions to prevent cell injury related to warm ischemia [7]
In in situ part of Experiment 1, we investigated cell death as estimated from triphosphate (dUTP) nick end-labeling (TUNEL) scores in uterus biopsies taken at various time points during 3 h of in situ warm ischemia followed by 10 min of reperfusion (Fig 1A and 1B)
Summary
Uterus transplantation is an experimental infertility treatment option for women with a dysfunctional or absent uterus, known as absolute uterine factor infertility. Gap protects human uterus against cell death during cold storage research on several animal species [1], Brannstrom’s team described the first human delivery after uterus transplantation from a living donor in 2014, and since more live births were recorded [2,3,4,5,6]. The first human uterus transplantation from a multi-organ brain-dead donor was performed by Ozkan, where the uterus was the first organ to be retrieved, creating the best conditions to prevent cell injury related to warm ischemia [7]. As well as I/R injury, are two conditions well known to involve connexin-linked injury mechanisms, which include the expansion of cell death via gap junction channels and the opening of hemichannels that by themselves may lead to cell injury/death [11,12,13,14]. We previously showed that Gap, a short sequence identical to the second extracellular loop of Cx43 protects human blood vessels against cryopreservation-induced cell death in smooth muscle cells [23]
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