Imaging the pancreas : new aspects on lobular development and adult constitution

Hörnblad, Andreas

January 2011

The mouse pancreas is a mixed exocrine and endocrine glandconsisting of three lobular compartments: the splenic, duodenal and gastric lobes. During embryogenesis, the pancreas forms from two progenitor populations located on the dorsal and ventral side of the primitive gut tube. These anlagen are brought in close proximity as the gut elongates and rotates, and fuse to form a single organ. The splenic and duodenal lobes develop from the dorsal and ventral anlagen, respectively. In the adult pancreas, exocrine tissue secretes digestive enzymes intothe gut lumen to support nutrient uptake. The endocrine Islets of Langerhans are scattered throughout the exocrine tissue and aid in regulation of energy homeostasis through the secretion of hormones. One of the key players in energy homeostasis is the pancreatic ß-cell, which is the most abundant cell type of the islets. The β-cells regulates blood glucose levels through the action of insulin. Conditions where this regulation does not function properly are gathered under the common name of Diabetes mellitus. Type 1 diabetes (T1D) is characterized by insulin deficiency due to autoimmune destruction of the ß-cells. Using recently developed protocols for optical projection tomography (OPT) whole-organ imaging, we have revealed new spatial and quantitative aspects on ß-cell mass dynamics and immune infiltration during the course of T1D development in the non-obese diabetic (NOD) mouse model. We show that although immune infiltration appears to occur asynchronously throughout the organ, smaller islets, mainly located in the periphery of the organ, preferentially loose their ß-cells during early stages of disease progression. Larger islets appear more resistant to the autoimmune attack and our data indicate the existence of a compensatory proliferative capacity within these islets. We also report the appearance of structures resembling tertiary lymphoid organs (TLOs) in association with the remaining islets during later phases of T1D progression. OPT has already proven to be a useful tool for assessments of ß-cellmass in the adult mouse pancreas. However, as with other techniques, previous protocols have relied on a tedious degree of manual postivacquisition editing. To further refine OPT-based assessment of pancreatic ß-cell mass distribution in the murine pancreas, we implemented a computational statistical approach, Contrast-Limited Adaptive Histogram Normalisation (CLAHE), to the OPT projection data of pancreata from C57Bl/6 mice. This methodology provided increased islet detection sensitivity, improved islet morphology and diminished subjectivity in thresholding for reconstruction and quantification. Using this approach, we could report a substantially higher number of islets than previously described for this strain and provide evidence of significant differences in islet mass distribution between the pancreatic lobes. The gastric lobe stood out in particular and contained a 75% higher islet density as compared to the splenic lobe. Although the development of the early pancreatic buds has been relatively well studied, later morphogenetic events are less clear and information regarding the formation of the gastric lobe has largely been missing. Using OPT we have generated a quantitative three-dimensional road map of pancreatic morphogenesis in the mouse. We show that the gastric lobe forms as a perpendicular outgrowth fromthe stem of the dorsal pancreas at around embryonic day (e) 13.5, which grows into a mesenchymal domain overlaying the pyloric sphincter and proximal part of the glandular stomach. By analyzing mutant mice with aberrant spleen development, we further demonstrate that proper formation of the gastric lobe is dependent on the initial formation of the closely positioned spleen, indicating a close interplay between pancreatic and splenic mesenchyme during development. Additionally, we show that the expression profile of markers for pancreatic multipotent progenitors within the pancreas is heterogenous with regards to lobular origin. Altogether, our studies regarding the morphogenesis and adult constitution of the mouse pancreas recognize lobular heterogeneities that add important information for future interpretations of this organ.

Type 1 diabetes

ß-cell mass

tertiary lymphoid organs

biomedical imaging

optical projection tomography

morphogenesis

pancreas development

gastric lobe

spleen development.

Funktionale Bedeutung der homöostatischen Chemokinrezeptoren CCR7 und CXCR5 im Verlauf von mukosalen Immunantworten

Winter, Susann

16 May 2011

Die kontinuierliche Rezirkulation von Immunzellen durch periphere und sekundäre lymphatische Organe (SLOs) ist Bestandteil der Immunüberwachung und wichtig für die Aufrechterhaltung und Funktionsbereitschaft des Immunsystems. Der homöostatische Chemokinrezeptor CCR7 vermittelt dabei nicht nur die Rezirkulation von Lymphozyten durch SLOs, sondern scheint auch an der homöostatischen Rezirkulation von Lymphozyten durch nicht-lymphoide periphere Gewebe beteiligt zu sein. Im Rahmen dieser Arbeit wurde mithilfe von CCR7-defizienten Mäusen die funktionale Bedeutung von CCR7 für die homöostatische Rezirkulation von Lymphozyten durch das Peritoneum untersucht und nachgewiesen, dass CCR7 der dominante Chemokinrezeptor ist, der unter physiologischen Bedingungen die Transitzeit von Lymphozyten durch das Peritoneum festlegt. Die gestörte Rezirkulation von Lymphozyten begünstigte außerdem die Entstehung von tertiären lymphoiden Organen (TLOs) in der Magenschleimhaut von CCR7-defizienten Mäusen. Untersuchungen zur zellulären und molekularen Grundlage dieser und weiterer pathomorphologischer Veränderungen in der Magenschleimhaut von CCR7-defizienten Mäusen verdeutlichten die Funktion von CCR7 für die Etablierung von zentraler und peripherer Toleranz gegenüber gastrischen Antigenen. Fehlt CCR7, dann entwickelten Mäuse eine spontane Autoimmungastritis, welche durch gastritogene CD4+ T-Zellen verursacht wurde, deren Aktivierung auch unabhängig von Lymphknoten und TLOs erfolgte. Die Entstehung von TLOs wird auch bei einer durch Helicobacter pylori ausgelösten chronischen Gastritis beobachtet. Die Expression des homöostatischen Chemokinrezeptors CXCR5 und seines Liganden CXCL13 ist mit der Entwicklung dieser TLOs korreliert worden. Unter Verwendung eines Mausmodells für H. pylori-induzierte chronische Gastritis konnte gezeigt werden, dass CXCR5 die Ausbildung von TLOs vermittelt und eine Rolle für die Induktion von H. pylori-spezifischen T-Zell- sowie humoralen Immunantworten spielt. / Homeostatic recirculation of immune cells through peripheral and secondary lympoid organs (SLOs) is required for immune surveillance and the maintenance and functionality of the immune system. The homeostatic chemokine receptor CCR7 controls not only lymphoid cell trafficking to and within SLOs, but also seems to be involved in the homeostatic recirculation of lymphocytes through non-lymphoid peripheral tissues. Within the scope of this work we investigated the functional relevance of CCR7 for the homeostatic recirculation of lymphocytes through the peritoneal cavity and could show, that CCR7 is the dominant chemokine receptor which defines the transit time of lymphocytes in the peritoneal cavity under physiological conditions. Impaired recirculation of lymphocytes also promoted the development of tertiary lymphoid organs (TLOs) in the gastric mucosa of CCR7-deficient mice. Analysis of the cellular and molecular mechanisms underlying these and other pathomorphological alterations in the gastric mucosa of CCR7-deficient mice provided further evidence regarding the function of CCR7 for the establishment of central and peripheral tolerance towards gastric antigens. Mice that lack CCR7 spontaneously developed autoimmune gastritis, which was caused by gastritogenic CD4+ T-cells. Such autoreactive T cell responses were also initiated in the absence of lymph nodes and TLOs in CCR7/LT-alpha double-deficient mice. Development of TLOs is also observed during chronic gastritis induced by Helicobacter pylori. The expression of the homeostatic chemokine receptor CXCR5 and its ligand CXCL13 has been correlated with the development of these TLOs. Using a mouse model for H. pylori-induced chronic gastritis, we could show that CXCR5 is responsible for the development of TLOs and also plays a role for the induction of H. pylori-specific T and B cell responses.

Peritoneum

Autoimmunität

homöostatische Chemokinrezeptoren

Autoimmungastritis

Lymphotoxin/TNF

tertiäre lymphoide Organe

chronische Gastritis

Helicobacter pylori

autoimmunity

homeostatic chemokine receptors

peritoneal cavity

autoimmune gastritis

lymphotoxin/TNF

tertiary lymphoid organs

chronic gastritis

Helicobacter pylori

570 Biowissenschaften, Biologie

32 Biologie

WF 9880

ddc:570