Ruhina Mehra scite author profile

Purpose: The possibility of providing cultured corneal endothelial cells (CECs) for clinical transplantation has gained much attention. However, the worldwide need for human (h) donor corneas far exceeds supply. The pig (p) might provide an alternative source. The aim of this study was to compare the proliferative capacity of CECs from wild-type (WT) pigs, genetically-engineered (GE) pigs, and humans. Methods: The following CECs were cultured: hCECs from donors (i) ≤36 years (young), (ii) ≥49 years (old), and WT pCECs from (iii) neonatal (<5 days), (iv) young (<2 months), and (v) old (>20 months) pigs, and CECs from young (vi) GE pigs (GTKO/CD46 and GTKO/CD46/CD55). Proliferative capacity of CECs was assessed by direct cell counting over 15 days of culture and by BrdU assay. Cell viability during culture was assessed by annexin V staining. The MTT assay assessed cell metabolic activity. Results: There was significantly lower proliferative capacity of old CECs than of young CECs (p < 0.01) in both pigs and humans. There was no significant difference in proliferative capacity/metabolic activity between young pCECs and young hCECs. However, there was a significantly higher percentage of cell death in hCECs compared to pCECs during culture (p < 0.01). Young GE pCECs showed similar proliferative capacity/cell viability/metabolic activity to young WT pCECs. Conclusions: Because of the greater availability of young pigs and the excellent proliferative capacity of cultured GE pCECs, GE pigs could provide a source of CECs for clinical transplantation.

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Distribution of Non-Gal Antigens in Pig Cornea

Cohen

Miyagawa

Mehra

et al. 2014

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Although the cornea is avascular, antibodies in primate serum can bind to pig antigens, especially on epithelial cells and stromal collagen. Although the binding to entire GTKO corneas was weaker than that to WT corneas, deletion of the expression of NeuGc and expression of human complement-regulatory proteins in the pig cornea will be important if prolonged clinical corneal xenograft survival is to be achieved.

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Density, Morphology, and In Vitro Proliferative Capacity of Porcine Corneal Endothelial Cells for Future Clinical Corneal Endothelial Xenotransplantation

Fujita

Mehra

et al. 2012

Transplantation Journal

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Is Patient Age Associated With Improved Survival After Transarterial Chemoembolization (TACE) for Unresectable Neuroendocrine Tumor (NET) Metastasis?

Mehra

Nguyen

Steel

et al. 2010

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Ruhina Mehra

Characterization of Porcine Corneal Endothelium for Xenotransplantation

Comparison of Proliferative Capacity of Genetically-Engineered Pig and Human Corneal Endothelial Cells

Distribution of Non-Gal Antigens in Pig Cornea

Density, Morphology, and In Vitro Proliferative Capacity of Porcine Corneal Endothelial Cells for Future Clinical Corneal Endothelial Xenotransplantation

Is Patient Age Associated With Improved Survival After Transarterial Chemoembolization (TACE) for Unresectable Neuroendocrine Tumor (NET) Metastasis?

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