Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling

Amy C. Kelly; Kate E. Smith; William G. Purvis; Catherine G. Min; Craig S. Weber; Amanda M. Cooksey; Craig Hasilo; Steven Paraskevas; Thomas M. Suszynski; Bradley P. Weegman; Miranda J. Anderson; Leticia E. Camacho; Robert C. Harland; Thomas Loudovaris; Jana Jandova; DIana S. Molano; Nicholas D. Price; Ivan G. Georgiev; William E. Scott; Derek M.D. Manas; James A.M. Shaw; Doug O'Gorman; Tatsuya Kin; Fiona M. McCarthy; Gregory L. Szot; Andrew M. Posselt; Peter G. Stock; Theodore Karatzas; A. M.James Shapiro; Ronald M. Lynch; Sean W. Limesand; Klearchos K. Papas

doi:10.1097/TP.0000000000002400

Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling

Amy C. Kelly, Kate E. Smith, William G. Purvis, Catherine G. Min, Craig S. Weber, Amanda M. Cooksey, Craig Hasilo, Steven Paraskevas, Thomas M. Suszynski, Bradley P. Weegman, Miranda J. Anderson, Leticia E. Camacho, Robert C. Harland, Thomas Loudovaris, Jana Jandova, DIana S. Molano, Nicholas D. Price, Ivan G. Georgiev, William E. Scott, Derek M.D. ManasJames A.M. Shaw, Doug O'Gorman, Tatsuya Kin, Fiona M. McCarthy, Gregory L. Szot, Andrew M. Posselt, Peter G. Stock, Theodore Karatzas, A. M.James Shapiro, Ronald M. Lynch, Sean W. Limesand, Klearchos K. Papas

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Abstract

Background All human islets used in research and for the clinical treatment of diabetes are subject to ischemic damage during pancreas procurement, preservation, and islet isolation. A major factor influencing islet function is exposure of pancreata to cold ischemia during unavoidable windows of preservation by static cold storage (SCS). Improved preservation methods may prevent this functional deterioration. In the present study, we investigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserved islet function versus SCS. Methods Human pancreata were preserved by SCS or by persufflation in combination with SCS. Islets were subsequently isolated, and preparations in each group matched for SCS or total preservation time were compared using dynamic glucose-stimulated insulin secretion as a measure of β-cell function and RNA sequencing to elucidate transcriptomic changes. Results Persufflated pancreata had reduced SCS time, which resulted in islets with higher glucose-stimulated insulin secretion compared to islets from SCS only pancreata. RNA sequencing of islets from persufflated pancreata identified reduced inflammatory and greater metabolic gene expression, consistent with expectations of reducing cold ischemic exposure. Portions of these transcriptional responses were not associated with time spent in SCS and were attributable to pancreatic reoxygenation. Furthermore, persufflation extended the total preservation time by 50% without any detectable decline in islet function or viability. Conclusions These data demonstrate that pancreas preservation by persufflation rather than SCS before islet isolation reduces inflammatory responses and promotes metabolic pathways in human islets, which results in improved β cell function.

Original language	English (US)
Pages (from-to)	160-167
Number of pages	8
Journal	Transplantation
Volume	103
Issue number	1
DOIs	https://doi.org/10.1097/TP.0000000000002400
State	Published - Jan 1 2019
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by the National Institutes of Health grants NIH/SBIR 5R44DK070400-04 (K.K.P., Co-Principal Investigator with Dr. Linda Templeman, Giner Inc.) and R01DK084842 (S.W.L., Principal Investigator) and NIH/NIDDK DP3 grant 1DP3DK106933-01 (K.K.P., Principal Investigator).

Publisher Copyright:
© Wolters Kluwer Health, Inc. All rights reserved.

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Kelly, A. C., Smith, K. E., Purvis, W. G., Min, C. G., Weber, C. S., Cooksey, A. M., Hasilo, C., Paraskevas, S., Suszynski, T. M., Weegman, B. P., Anderson, M. J., Camacho, L. E., Harland, R. C., Loudovaris, T., Jandova, J., Molano, DI. S., Price, N. D., Georgiev, I. G., Scott, W. E., ... Papas, K. K. (2019). Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling. Transplantation, 103(1), 160-167. https://doi.org/10.1097/TP.0000000000002400

Kelly, AC, Smith, KE, Purvis, WG, Min, CG, Weber, CS, Cooksey, AM, Hasilo, C, Paraskevas, S, Suszynski, TM, Weegman, BP, Anderson, MJ, Camacho, LE, Harland, RC, Loudovaris, T, Jandova, J, Molano, DIS, Price, ND, Georgiev, IG, Scott, WE, Manas, DMD, Shaw, JAM, O'Gorman, D, Kin, T, McCarthy, FM, Szot, GL, Posselt, AM, Stock, PG, Karatzas, T, Shapiro, AMJ, Lynch, RM, Limesand, SW & Papas, KK 2019, 'Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling', Transplantation, vol. 103, no. 1, pp. 160-167. https://doi.org/10.1097/TP.0000000000002400

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title = "Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling",

abstract = "Background All human islets used in research and for the clinical treatment of diabetes are subject to ischemic damage during pancreas procurement, preservation, and islet isolation. A major factor influencing islet function is exposure of pancreata to cold ischemia during unavoidable windows of preservation by static cold storage (SCS). Improved preservation methods may prevent this functional deterioration. In the present study, we investigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserved islet function versus SCS. Methods Human pancreata were preserved by SCS or by persufflation in combination with SCS. Islets were subsequently isolated, and preparations in each group matched for SCS or total preservation time were compared using dynamic glucose-stimulated insulin secretion as a measure of β-cell function and RNA sequencing to elucidate transcriptomic changes. Results Persufflated pancreata had reduced SCS time, which resulted in islets with higher glucose-stimulated insulin secretion compared to islets from SCS only pancreata. RNA sequencing of islets from persufflated pancreata identified reduced inflammatory and greater metabolic gene expression, consistent with expectations of reducing cold ischemic exposure. Portions of these transcriptional responses were not associated with time spent in SCS and were attributable to pancreatic reoxygenation. Furthermore, persufflation extended the total preservation time by 50% without any detectable decline in islet function or viability. Conclusions These data demonstrate that pancreas preservation by persufflation rather than SCS before islet isolation reduces inflammatory responses and promotes metabolic pathways in human islets, which results in improved β cell function.",

author = "Kelly, {Amy C.} and Smith, {Kate E.} and Purvis, {William G.} and Min, {Catherine G.} and Weber, {Craig S.} and Cooksey, {Amanda M.} and Craig Hasilo and Steven Paraskevas and Suszynski, {Thomas M.} and Weegman, {Bradley P.} and Anderson, {Miranda J.} and Camacho, {Leticia E.} and Harland, {Robert C.} and Thomas Loudovaris and Jana Jandova and Molano, {DIana S.} and Price, {Nicholas D.} and Georgiev, {Ivan G.} and Scott, {William E.} and Manas, {Derek M.D.} and Shaw, {James A.M.} and Doug O'Gorman and Tatsuya Kin and McCarthy, {Fiona M.} and Szot, {Gregory L.} and Posselt, {Andrew M.} and Stock, {Peter G.} and Theodore Karatzas and Shapiro, {A. M.James} and Lynch, {Ronald M.} and Limesand, {Sean W.} and Papas, {Klearchos K.}",

note = "Funding Information: This work was supported by the National Institutes of Health grants NIH/SBIR 5R44DK070400-04 (K.K.P., Co-Principal Investigator with Dr. Linda Templeman, Giner Inc.) and R01DK084842 (S.W.L., Principal Investigator) and NIH/NIDDK DP3 grant 1DP3DK106933-01 (K.K.P., Principal Investigator). Publisher Copyright: {\textcopyright} Wolters Kluwer Health, Inc. All rights reserved.",

year = "2019",

month = jan,

day = "1",

doi = "10.1097/TP.0000000000002400",

language = "English (US)",

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T1 - Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling

AU - Kelly, Amy C.

AU - Smith, Kate E.

AU - Purvis, William G.

AU - Min, Catherine G.

AU - Weber, Craig S.

AU - Cooksey, Amanda M.

AU - Hasilo, Craig

AU - Paraskevas, Steven

AU - Suszynski, Thomas M.

AU - Weegman, Bradley P.

AU - Anderson, Miranda J.

AU - Camacho, Leticia E.

AU - Harland, Robert C.

AU - Loudovaris, Thomas

AU - Jandova, Jana

AU - Molano, DIana S.

AU - Price, Nicholas D.

AU - Georgiev, Ivan G.

AU - Scott, William E.

AU - Manas, Derek M.D.

AU - Shaw, James A.M.

AU - O'Gorman, Doug

AU - Kin, Tatsuya

AU - McCarthy, Fiona M.

AU - Szot, Gregory L.

AU - Posselt, Andrew M.

AU - Stock, Peter G.

AU - Karatzas, Theodore

AU - Shapiro, A. M.James

AU - Lynch, Ronald M.

AU - Limesand, Sean W.

AU - Papas, Klearchos K.

N1 - Funding Information: This work was supported by the National Institutes of Health grants NIH/SBIR 5R44DK070400-04 (K.K.P., Co-Principal Investigator with Dr. Linda Templeman, Giner Inc.) and R01DK084842 (S.W.L., Principal Investigator) and NIH/NIDDK DP3 grant 1DP3DK106933-01 (K.K.P., Principal Investigator). Publisher Copyright: © Wolters Kluwer Health, Inc. All rights reserved.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Background All human islets used in research and for the clinical treatment of diabetes are subject to ischemic damage during pancreas procurement, preservation, and islet isolation. A major factor influencing islet function is exposure of pancreata to cold ischemia during unavoidable windows of preservation by static cold storage (SCS). Improved preservation methods may prevent this functional deterioration. In the present study, we investigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserved islet function versus SCS. Methods Human pancreata were preserved by SCS or by persufflation in combination with SCS. Islets were subsequently isolated, and preparations in each group matched for SCS or total preservation time were compared using dynamic glucose-stimulated insulin secretion as a measure of β-cell function and RNA sequencing to elucidate transcriptomic changes. Results Persufflated pancreata had reduced SCS time, which resulted in islets with higher glucose-stimulated insulin secretion compared to islets from SCS only pancreata. RNA sequencing of islets from persufflated pancreata identified reduced inflammatory and greater metabolic gene expression, consistent with expectations of reducing cold ischemic exposure. Portions of these transcriptional responses were not associated with time spent in SCS and were attributable to pancreatic reoxygenation. Furthermore, persufflation extended the total preservation time by 50% without any detectable decline in islet function or viability. Conclusions These data demonstrate that pancreas preservation by persufflation rather than SCS before islet isolation reduces inflammatory responses and promotes metabolic pathways in human islets, which results in improved β cell function.

AB - Background All human islets used in research and for the clinical treatment of diabetes are subject to ischemic damage during pancreas procurement, preservation, and islet isolation. A major factor influencing islet function is exposure of pancreata to cold ischemia during unavoidable windows of preservation by static cold storage (SCS). Improved preservation methods may prevent this functional deterioration. In the present study, we investigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserved islet function versus SCS. Methods Human pancreata were preserved by SCS or by persufflation in combination with SCS. Islets were subsequently isolated, and preparations in each group matched for SCS or total preservation time were compared using dynamic glucose-stimulated insulin secretion as a measure of β-cell function and RNA sequencing to elucidate transcriptomic changes. Results Persufflated pancreata had reduced SCS time, which resulted in islets with higher glucose-stimulated insulin secretion compared to islets from SCS only pancreata. RNA sequencing of islets from persufflated pancreata identified reduced inflammatory and greater metabolic gene expression, consistent with expectations of reducing cold ischemic exposure. Portions of these transcriptional responses were not associated with time spent in SCS and were attributable to pancreatic reoxygenation. Furthermore, persufflation extended the total preservation time by 50% without any detectable decline in islet function or viability. Conclusions These data demonstrate that pancreas preservation by persufflation rather than SCS before islet isolation reduces inflammatory responses and promotes metabolic pathways in human islets, which results in improved β cell function.

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U2 - 10.1097/TP.0000000000002400

DO - 10.1097/TP.0000000000002400

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AN - SCOPUS:85059112433

SN - 0041-1337

VL - 103

SP - 160

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JO - Transplantation

JF - Transplantation

IS - 1

ER -

Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling

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