Your search keyword '"Daniela Friedland"' showing total 3 results

1. Structure, interaction and nervous connectivity of beta cell primary cilia

Author

Andreas Müller, Nikolai Klena, Song Pang, Leticia Elizabeth Galicia Garcia, Oleksandra Topcheva, Solange Aurrecoechea Duran, Davud Sulaymankhil, Monika Seliskar, Hassan Mziaut, Eyke Schöniger, Daniela Friedland, Nicole Kipke, Susanne Kretschmar, Carla Münster, Jürgen Weitz, Marius Distler, Thomas Kurth, Deborah Schmidt, Harald F. Hess, C. Shan Xu, Gaia Pigino, and Michele Solimena

Subjects

Science

Abstract

Abstract Primary cilia are sensory organelles present in many cell types, partaking in various signaling processes. Primary cilia of pancreatic beta cells play pivotal roles in paracrine signaling and their dysfunction is linked to diabetes. Yet, the structural basis for their functions is unclear. We present three-dimensional reconstructions of beta cell primary cilia by electron and expansion microscopy. These cilia are spatially confined within deep ciliary pockets or narrow spaces between cells, lack motility components and display an unstructured axoneme organization. Furthermore, we observe a plethora of beta cell cilia-cilia and cilia-cell interactions with other islet and non-islet cells. Most remarkably, we have identified and characterized axo-ciliary synapses between beta cell cilia and the cholinergic islet innervation. These findings highlight the beta cell cilia’s role in islet connectivity, pointing at their function in integrating islet intrinsic and extrinsic signals and contribute to understanding their significance in health and diabetes.

Published

2024

2. Multi-omics profiling of living human pancreatic islet donors reveals heterogeneous beta cell trajectories towards type 2 diabetes

Author

Cristina Legido-Quigley, Florence Mehl, Daniela Aust, Eyke Schöniger, Kai Simons, Mathias Lesche, Michele Solimena, Andreas Dahl, Marko Barovic, Nicole Kipke, Flavia Marzetta, Anke M. Schulte, Andreas-David Brunner, Matthias Mann, Daniela Friedland, Jürgen Weitz, Frédéric Burdet, Philippe Delerive, Christian Klose, Bernard Thorens, Mark Ibberson, Marius Distler, Mathias J. Gerl, Pierre Barbier Saint Hilaire, Leonore Wigger, Ezio Bonifacio, and Camille Kessler

Subjects

Blood Glucose, Proteomics, endocrine system, endocrine system diseases, Lipide, Typ-2-Diabetes (T2D), Pankreasinseln, Multi-omics-Analyse, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, 030209 endocrinology & metabolism, Type 2 diabetes, Biology, Impaired glucose tolerance, Islets of Langerhans, 03 medical and health sciences, 0302 clinical medicine, Insulin-Secreting Cells, Physiology (medical), Diabetes mellitus, Living Donors, Internal Medicine, medicine, Humans, Insulin, Metabolomics, ddc:610, 030304 developmental biology, 0303 health sciences, geography, geography.geographical_feature_category, Gene Expression Profiling, Pancreatic islets, Transdifferentiation, lipids, type 2 diabetes (T2D), pancreatic islets, multi-omics analysis, Cell Biology, Islet, medicine.disease, medicine.anatomical_structure, Diabetes Mellitus, Type 2, Gene Expression Regulation, Pancreatectomy, Cancer research, Disease Susceptibility, Beta cell, Energy Metabolism, Biomarkers

Abstract

Most research on human pancreatic islets is conducted on samples obtained from normoglycaemic or diseased brain-dead donors and thus cannot accurately describe the molecular changes of pancreatic islet beta cells as they progress towards a state of deficient insulin secretion in type 2 diabetes (T2D). Here, we conduct a comprehensive multi-omics analysis of pancreatic islets obtained from metabolically profiled pancreatectomized living human donors stratified along the glycemic continuum, from normoglycemia to T2D. We find that islet pools isolated from surgical samples by laser-capture microdissection display remarkably more heterogeneous transcriptomic and proteomic profiles in patients with diabetes than in non-diabetic controls. The differential regulation of islet gene expression is already observed in prediabetic individuals with impaired glucose tolerance. Our findings demonstrate a progressive, but disharmonic, remodelling of mature beta cells, challenging current hypotheses of linear trajectories toward precursor or transdifferentiation stages in T2D. Furthermore, through integration of islet transcriptomics with preoperative blood plasma lipidomics, we define the relative importance of gene coexpression modules and lipids that are positively or negatively associated with HbA1c levels, pointing to potential prognostic markers. Wigger, Barovic and Brunner et al. perform a multidimensional analysis of islets from metabolically characterized patients who had undergone pancreatectomy, observing remarkable heterogeneity between samples from individuals with type 2 diabetes, thus arguing against models of linear beta-cell dedifferentiation in diabetes.

Published

2021

3. Multi-omics profiling of living human pancreatic islet donors reveals heterogeneous beta cell trajectories toward type 2 diabetes

Author

Philippe Delerive, Michele Solimena, Camille Kessler, Nicole Kipke, Mark Ibberson, Flavia Marzetta, Ezio Bonifacio, Matthias Mann, Andreas-David Brunner, Mathias Lesche, Daniela Aust, Andreas Dahl, Marko Barovic, Daniela Friedland, Frédéric Burdet, Anke M. Schulte, Eyke Schöniger, Kai Simons, Leonore Wigger, Jürgen Weitz, Bernard Thorens, Florence Mehl, Cristina Legido Quigley, and Marius Distler

Subjects

endocrine system, geography, geography.geographical_feature_category, endocrine system diseases, Type 2 diabetes, Biology, Islet, medicine.disease, Impaired glucose tolerance, Transcriptome, Lipidomics, Cancer research, medicine, Beta cell, Gene, Microdissection

Abstract

Existing studies do not sufficiently describe the molecular changes of pancreatic islet beta cells leading to their deficient insulin secretion in type 2 diabetes (T2D). Here we address this deficiency with a comprehensive multi-omics analysis of metabolically profiled pancreatectomized living human donors stratified along the glycemic continuum from normoglycemia to T2D. Islet pools isolated from surgical samples by laser-capture microdissection had remarkably heterogeneous transcriptomic and proteomic profiles in diabetics, but not in non-diabetic controls. Transcriptomics analysis of this unique cohort revealed islet genes already dysregulated in prediabetic individuals with impaired glucose tolerance. Our findings demonstrate a progressive but disharmonic remodeling of mature beta cells, challenging current hypotheses of linear trajectories toward precursor or trans-differentiation stages in T2D. Further, integration of islet transcriptomics and pre-operative blood plasma lipidomics data enabled us to define the relative importance of gene co-expression modules and lipids positively or negatively associated with HbA1c levels, pointing to potential prognostic markers.

Published

2020