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Ingo B. Leibiger, Per-Olof Berggren  Molecular Metabolism 

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Presentation on theme: "Ingo B. Leibiger, Per-Olof Berggren  Molecular Metabolism "— Presentation transcript:

1 Intraocular in vivo imaging of pancreatic islet cell physiology/pathology 
Ingo B. Leibiger, Per-Olof Berggren  Molecular Metabolism  Volume 6, Issue 9, Pages (September 2017) DOI: /j.molmet Copyright © 2017 The Authors Terms and Conditions

2 Figure 1 The anterior chamber of the eye (ACE) as a transplantation site for non-invasive and longitudinal monitoring of pancreatic islet/beta cell physiology and pathology. The endocrine pancreas consists of thousands to a million discrete micro-organs, i.e. islets of Langerhans, which are scattered throughout the pancreas. Each islet represents an entire micro-organ, containing the major hormone-producing cell types, i.e. insulin-producing beta cells (green), glucagon-producing alpha cells (red), and somatostatin-producing delta cells (purple). Noteworthy, human and rodent islets differ in their architecture, which has consequences for islet cell function. Following their isolation, pancreatic islets are transplanted into the ACE. In case of allo- or xeno-transplantation, immune-compromised animals serve as recipients. In the ACE, islets engraft on the iris, where they become vascularized and innervated. The cornea serves as a natural body-window, which allows non-invasive and longitudinal, microscopic, in vivo imaging at single-cell resolution by confocal laser-scanning microscopy (CLSM) or two-photon laser-scanning microscopy (TPLSM). Two general strategies for islet transplantation can be applied. The first is to use ‘reporter islets’ engrafted in the ACE for monitoring the status and function of the islets in the endogenous, in situ pancreas of the same animal. As a highly versatile research tool, this will allow for the identification of key-events in the development and progression of diabetes. Moreover, it will lay the foundation for a personalized medicine approach and will serve as a screening platform for new drugs and/or treatment protocols. In the ‘metabolic transplantation,’ the endogenous endocrine pancreas is replaced by a sufficient amount of islet mass transplanted to the ACE in combination with incapacitating the function of the endogenous islets. Here, engrafted islets in the eye control glucose homeostasis of the animal. This approach will allow establishment of islet-specific transgenic models, ‘humanized’ mouse models as well as provide the basis for a new clinical transplantation site for the cure of diabetes. Both strategies can be combined by using one eye of the animal for ‘metabolic transplantation’ while equipping the other eye with ‘reporter islets’ for microscopic functional analysis. Molecular Metabolism 2017 6, DOI: ( /j.molmet ) Copyright © 2017 The Authors Terms and Conditions

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