Intraperitoneal administration of human “Neo-Islets”, 3-D organoids of mesenchymal stromal and pancreatic islet cells, normalizes blood glucose levels in streptozotocin-diabetic NOD/SCID mice: Significance for clinical trials

Intraperitoneal administration of human “Neo-Islets”, 3-D organoids of mesenchymal stromal and pancreatic islet cells, normalizes blood glucose levels in streptozotocin-diabetic NOD/SCID mice: Significance for clinical trials

Globally, individuals with autoimmune Type 1 diabetes mellitus (T1DM) continue to depend for survival on insulin injections. While pancreas and intrahepatic pancreatic islet transplants can produce insulin-independence and ameliorate serious complications, both therapies depend on potentially toxic...

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Veröffentlicht in:PloS one 2021-10, Vol.16 (10), p.e0259043
Hauptverfasser: Westenfelder, Christof, Hu, Zhuma, Zhang, Ping, Gooch, Anna
Format: Artikel
Sprache:eng
Schlagworte:
Autoimmune diseases
Biology and Life Sciences
Blood
Blood glucose
Blood sugar
Care and treatment
Cell differentiation
Clinical trials
Complications
Complications and side effects
Diabetes
Diabetes mellitus
Diabetes mellitus (insulin dependent)
Diagnosis
Dosage and administration
Drugs
Fetuses
Gene expression
Glucose
Glucose monitoring
Graft rejection
Hormones
Immunosuppressive agents
Insulin
Islet cell transplantation
Islet cells
Laboratory animals
Measurement
Medicine and Health Sciences
Mesenchyme
Organoids
Pancreas
Pancreas transplantation
Pancreatic islet transplantation
Patient outcomes
Pluripotency
Portal vein
Reagents
Rejection
Research and Analysis Methods
Risk factors
Stem cell transplantation
Stem cells
Streptozocin
Transplants
Transplants & implants
Type 1 diabetes
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creator Westenfelder, Christof
Hu, Zhuma
Zhang, Ping
Gooch, Anna
description Globally, individuals with autoimmune Type 1 diabetes mellitus (T1DM) continue to depend for survival on insulin injections. While pancreas and intrahepatic pancreatic islet transplants can produce insulin-independence and ameliorate serious complications, both therapies depend on potentially toxic anti-rejection drugs. Furthermore, the scarcity of pancreas donors and islet transplant failures limit the general availability of such interventions. Recently, fetal and induced Pluripotent Stem Cells have been successfully differentiated to generate insulin producing β-like cells that generate euglycemia in diabetic mice. However, their clinical use still depends on anti-rejection drugs or immune-isolating encapsulation systems. We reported recently that allogeneic “Neo-Islets” (NI), 3-D organoids of Mesenchymal Stromal and Islet Cells are immune protected and permanently correct autoimmune diabetes in NOD mice by omental engraftment and endocrine cell redifferentiation. This new “endocrine pancreas” delivers islet hormones physiologically into the hepatic portal vein. Furthermore, treatment of insulin-dependent dogs with allogeneic canine NIs (ongoing FDA-approved Pilot Study) consistently improved glycemic control without the need for antirejection drugs. As there remains a critical need for curative therapies of T1DM, we engineered human NIs and tested their ability, after i.p. administration, to reestablish euglycemia in streptozotocin (STZ)-diabetic NOD/SCID mice. This diabetes model reproduces, in part, the clinical situation in which recipients of allogeneic biotherapies must take potent anti-rejection drugs that similarly create a life-long immune-compromised status. The present study demonstrates that human NI therapy (2x10e5/kg bw NIs/mouse) of STZ-diabetic NOD/SCID mice (n = 6), compared to controls (n = 6) significantly improved glycemic control, and most importantly, that a second dose given to the initial group normalized blood glucose levels long-term. Conclusion: Despite the limitations of the utilized diabetic NOD/SCID mouse model, the obtained data show that human NIs are curative, an observation that has high translational relevance and significantly supports the planned conduct of clinical trials with human NIs.
doi_str_mv 10.1371/journal.pone.0259043
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Furthermore, treatment of insulin-dependent dogs with allogeneic canine NIs (ongoing FDA-approved Pilot Study) consistently improved glycemic control without the need for antirejection drugs. As there remains a critical need for curative therapies of T1DM, we engineered human NIs and tested their ability, after i.p. administration, to reestablish euglycemia in streptozotocin (STZ)-diabetic NOD/SCID mice. This diabetes model reproduces, in part, the clinical situation in which recipients of allogeneic biotherapies must take potent anti-rejection drugs that similarly create a life-long immune-compromised status. The present study demonstrates that human NI therapy (2x10e5/kg bw NIs/mouse) of STZ-diabetic NOD/SCID mice (n = 6), compared to controls (n = 6) significantly improved glycemic control, and most importantly, that a second dose given to the initial group normalized blood glucose levels long-term. 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While pancreas and intrahepatic pancreatic islet transplants can produce insulin-independence and ameliorate serious complications, both therapies depend on potentially toxic anti-rejection drugs. Furthermore, the scarcity of pancreas donors and islet transplant failures limit the general availability of such interventions. Recently, fetal and induced Pluripotent Stem Cells have been successfully differentiated to generate insulin producing β-like cells that generate euglycemia in diabetic mice. However, their clinical use still depends on anti-rejection drugs or immune-isolating encapsulation systems. We reported recently that allogeneic “Neo-Islets” (NI), 3-D organoids of Mesenchymal Stromal and Islet Cells are immune protected and permanently correct autoimmune diabetes in NOD mice by omental engraftment and endocrine cell redifferentiation. This new “endocrine pancreas” delivers islet hormones physiologically into the hepatic portal vein. Furthermore, treatment of insulin-dependent dogs with allogeneic canine NIs (ongoing FDA-approved Pilot Study) consistently improved glycemic control without the need for antirejection drugs. As there remains a critical need for curative therapies of T1DM, we engineered human NIs and tested their ability, after i.p. administration, to reestablish euglycemia in streptozotocin (STZ)-diabetic NOD/SCID mice. This diabetes model reproduces, in part, the clinical situation in which recipients of allogeneic biotherapies must take potent anti-rejection drugs that similarly create a life-long immune-compromised status. The present study demonstrates that human NI therapy (2x10e5/kg bw NIs/mouse) of STZ-diabetic NOD/SCID mice (n = 6), compared to controls (n = 6) significantly improved glycemic control, and most importantly, that a second dose given to the initial group normalized blood glucose levels long-term. Conclusion: Despite the limitations of the utilized diabetic NOD/SCID mouse model, the obtained data show that human NIs are curative, an observation that has high translational relevance and significantly supports the planned conduct of clinical trials with human NIs.</abstract><cop>San Francisco</cop><pub>Public Library of Science</pub><pmid>34710142</pmid><doi>10.1371/journal.pone.0259043</doi><tpages>e0259043</tpages><orcidid>https://orcid.org/0000-0002-2349-9874</orcidid><oa>free_for_read</oa></addata></record>
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source DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central; Free Full-Text Journals in Chemistry; Public Library of Science (PLoS)
subjects Autoimmune diseases
Biology and Life Sciences
Blood
Blood glucose
Blood sugar
Care and treatment
Cell differentiation
Clinical trials
Complications
Complications and side effects
Diabetes
Diabetes mellitus
Diabetes mellitus (insulin dependent)
Diagnosis
Dosage and administration
Drugs
Fetuses
Gene expression
Glucose
Glucose monitoring
Graft rejection
Hormones
Immunosuppressive agents
Insulin
Islet cell transplantation
Islet cells
Laboratory animals
Measurement
Medicine and Health Sciences
Mesenchyme
Organoids
Pancreas
Pancreas transplantation
Pancreatic islet transplantation
Patient outcomes
Pluripotency
Portal vein
Reagents
Rejection
Research and Analysis Methods
Risk factors
Stem cell transplantation
Stem cells
Streptozocin
Transplants
Transplants & implants
Type 1 diabetes
title Intraperitoneal administration of human “Neo-Islets”, 3-D organoids of mesenchymal stromal and pancreatic islet cells, normalizes blood glucose levels in streptozotocin-diabetic NOD/SCID mice: Significance for clinical trials
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