The Use of the BD Oxygen Biosensor System to Assess Isolated Human Islets of Langerhans: Oxygen Consumption as a Potential Measure of Islet Potency

• Published in: Cell transplantation Vol. 15; no. 8-9; pp. 745 - 758
• Main Authors: Fraker, Chris, Timmins, Mark R., Guarino, Richard D., Haaland, Perry D., Ichii, Hirohito, Molano, Damaris, Pileggi, Antonello, Poggioli, Raffaella, Presnell, Sharon C., Inverardi, Luca, Zehtab, Mitra, Ricordi, Camillo
• Format: Journal Article
• Language: English
• Published: Los Angeles, CA SAGE Publications 01.01.2006; SAGE Publishing
• Subjects: Animals; Biosensing Techniques; Graft Survival - physiology; Humans; In Vitro Techniques; Islets of Langerhans - metabolism; Islets of Langerhans - physiology; Islets of Langerhans Transplantation - methods; Logistic Models; Male; Mice; Mice, Nude; Oxygen - metabolism; Oxygen Consumption - physiology; Transplantation, Heterologous; Islet potency; Oxygen consumption rate; Islets; Transplantation
• ISSN: 0963-6897; 1555-3892
• DOI: 10.3727/000000006783981440

The measurement of cellular oxygen consumption rate (OCR) is a potential tool for the assessment of metabolic potency of isolated islets of Langerhans prior to clinical transplantation. We used a commercially available 96-well plate fluoroprobe, the BD Oxygen Biosensor System (OBS), to estimate OCR in 27 human islet preparations, and compared these results to those of concurrent mouse transplantations. OCR was estimated both from the dO2 at steady state and from the transient rate of change of dO2 during the initial culture period immediately after seeding (“dO2 slope”). To demonstrate the validity of the OBS-derived values, it was shown that they scaled linearly with islet equivalent number/DNA concentration and with each other. These measurements were obtained for each preparation of islets incubated in media supplemented with either low (2.2 mM) or high (22 mM) glucose. Concurrently, one to three athymic nude mice were transplanted with 2,000 IEQs under the kidney capsule. The OCR Index, defined as the ratio of the DNA-normalized “dO2 slope” in high glucose to that in low glucose, proved highly predictive of mouse transplant results. Of the 69 mice transplanted, those receiving islets where the OCR Index exceeded 1.27 were 90% likely to reverse within 3 days, whereas those receiving islets with an OCR Index below 1.27 took significantly longer, often failing to reverse at all over a 35-day time period. These results suggest that the OBS could be a useful tool for the pretransplant assessment of islet cell potency.