TY - JOUR
T1 - Formation of amyloid in encapsulated human pancreatic and human stem cell-generated beta cell implants
AU - Van Hulle, Freya
AU - De Groot, Kaat
AU - Stangé, Geert
AU - Suenens, Krista
AU - De Mesmaeker, Ines
AU - De Paep, Diedert L
AU - Ling, Zhidong
AU - Hilbrands, Robert
AU - Gillard, Pieter
AU - Keymeulen, Bart
AU - Kroon, Evert
AU - Westermark, Gunilla T
AU - Jacobs-Tulleneers-Thevissen, Daniel
AU - Pipeleers, Daniel
N1 - © 2020 The American Society of Transplantation and the American Society of Transplant Surgeons.
PY - 2021/6
Y1 - 2021/6
N2 - Detection of amyloid in intraportal islet implants of type 1 diabetes patients has been proposed as cause in their functional decline. The present study uses cultured adult human islets devoid of amyloid to examine conditions of its formation. After intraportal injection in patients, amyloid deposits <15 µm diameter were identified in 5%–12% of beta cell containing aggregates, 3–76 months posttransplant. Such deposits also formed in glucose-controlling islet implants in the kidney of diabetic mice but not in failing implants. Alginate-encapsulated islets formed amyloid during culture when functional, and in all intraperitoneal implants that corrected diabetes in mice, exhibiting larger sizes than in functioning nonencapsulated implants. After intraperitoneal injection in a patient, retrieved single capsules presented amyloid near living beta cells, whereas no amyloid occurred in clustered capsules with dead cells. Amyloid was also demonstrated in functional human stem cell-generated beta cell implants in subcutaneous devices of mice. Deposits up to 35 µm diameter were localized in beta cell-enriched regions and related to an elevated IAPP over insulin ratio in the newly generated beta cells. Amyloid in device-encapsulated human stem cell-generated beta cell implants marks the formation of a functional beta cell mass but also an imbalance between its activated state and its microenvironment.
AB - Detection of amyloid in intraportal islet implants of type 1 diabetes patients has been proposed as cause in their functional decline. The present study uses cultured adult human islets devoid of amyloid to examine conditions of its formation. After intraportal injection in patients, amyloid deposits <15 µm diameter were identified in 5%–12% of beta cell containing aggregates, 3–76 months posttransplant. Such deposits also formed in glucose-controlling islet implants in the kidney of diabetic mice but not in failing implants. Alginate-encapsulated islets formed amyloid during culture when functional, and in all intraperitoneal implants that corrected diabetes in mice, exhibiting larger sizes than in functioning nonencapsulated implants. After intraperitoneal injection in a patient, retrieved single capsules presented amyloid near living beta cells, whereas no amyloid occurred in clustered capsules with dead cells. Amyloid was also demonstrated in functional human stem cell-generated beta cell implants in subcutaneous devices of mice. Deposits up to 35 µm diameter were localized in beta cell-enriched regions and related to an elevated IAPP over insulin ratio in the newly generated beta cells. Amyloid in device-encapsulated human stem cell-generated beta cell implants marks the formation of a functional beta cell mass but also an imbalance between its activated state and its microenvironment.
KW - animal models: murine
KW - clinical research/practice
KW - diabetes: new onset/posttransplant
KW - encapsulation
KW - endocrinology/diabetology
KW - islet transplantation
KW - islets of Langerhans
KW - pathology/histopathology
KW - stem cells
KW - translational research/science
UR - http://www.scopus.com/inward/record.url?scp=85097101787&partnerID=8YFLogxK
U2 - 10.1111/ajt.16398
DO - 10.1111/ajt.16398
M3 - Article
C2 - 33206461
SN - 1600-6135
VL - 21
SP - 2090
EP - 2099
JO - American Journal of Transplantation
JF - American Journal of Transplantation
IS - 6
ER -