Your search keyword '"Kanzler, Isabella"' showing total 2 results

1. Controlled intramyocardial release of engineered chemokines by biodegradable hydrogels as a treatment approach of myocardial infarction.

Author

Projahn, Delia, Simsekyilmaz, Sakine, Singh, Smriti, Kanzler, Isabella, Kramp, Birgit K., Langer, Marcella, Burlacu, Alexandrina, Bernhagen, Jürgen, Klee, Doris, Zernecke, Alma, Hackeng, Tilman M., Groll, Jürgen, Weber, Christian, Liehn, Elisa A., and Koenen, Rory R.

Subjects

COLLOIDS in medicine, MYOCARDIAL infarction, CHEMOKINES, BIODEGRADABLE products, INFLAMMATION, IMMUNE response, HEMATOPOIETIC stem cells

Abstract

Myocardial infarction ( MI) induces a complex inflammatory immune response, followed by the remodelling of the heart muscle and scar formation. The rapid regeneration of the blood vessel network system by the attraction of hematopoietic stem cells is beneficial for heart function. Despite the important role of chemokines in these processes, their use in clinical practice has so far been limited by their limited availability over a long time-span in vivo. Here, a method is presented to increase physiological availability of chemokines at the site of injury over a defined time-span and simultaneously control their release using biodegradable hydrogels. Two different biodegradable hydrogels were implemented, a fast degradable hydrogel ( FDH) for delivering Met- CCL5 over 24 hrs and a slow degradable hydrogel ( SDH) for a gradual release of protease-resistant CXCL12 (S4V) over 4 weeks. We demonstrate that the time-controlled release using Met- CCL5- FDH and CXCL12 (S4V)- SDH suppressed initial neutrophil infiltration, promoted neovascularization and reduced apoptosis in the infarcted myocardium. Thus, we were able to significantly preserve the cardiac function after MI. This study demonstrates that time-controlled, biopolymer-mediated delivery of chemokines represents a novel and feasible strategy to support the endogenous reparatory mechanisms after MI and may compliment cell-based therapies. [ABSTRACT FROM AUTHOR]

Published

2014

2. PYY3-36 and pancreatic polypeptide reduce food intake in an additive manner via distinct hypothalamic dependent pathways in mice.

Author

Shi, Yan‐Chuan, Lin, Zhou, Lau, Jackie, Zhang, Hui, Yagi, Miyuki, Kanzler, Isabella, Sainsbury, Amanda, Herzog, Herbert, and Lin, Shu

Subjects

PANCREATIC polypeptide, FOOD consumption research, HYPOTHALAMUS, LABORATORY mice, LABORATORY rodents

Abstract

Objective Peptide YY (PYY3-36) and pancreatic polypeptide (PP) potently inhibit food intake in rodents and humans, however, it is unclear whether they have any synergistic/additive interaction in decreasing food intake. Design and Methods Fasted WT, Y2−/−, Y4−/−, or Y2Y4−/− mice were i.p. administrated with saline, PYY3-36, and/or PP. Results Combined injection of PYY3-36 and PP reduces food intake in an additive manner was demonstrated in this study. This effect is mediated via Y2 and Y4 receptors, respectively. It was demonstrated that PYY3-36 and PP activate distinct neuronal pathways in the hypothalamus, as demonstrated by immunostaining for c-fos, which shows distinct patterns in response to either hormone. After PYY3-36 injection, neurons in the dorsal aspect of the arcuate nucleus (Arc), paraventricular nucleus, and dorso-medial nucleus of the hypothalamus (DMH) are activated with minimal responses seen in the ventro-medial nucleus of the hypothalamus (VMH) and lateral hypothalamic area (LHA) of WT mice. These effects are absent in Y2−/− mice. PP activates preferably the lateral aspect of the Arc, the DMH, VMH, and LHA in a Y4 receptor-dependent manner. Importantly, the expression pattern of c-fos immunoreactive neurons induced by combined treatment appears to be the sum of the effects of single treatments rather than a result of synergistic interaction. Conclusions These findings demonstrate that PYY3-36 and PP activate distinct pathways in the hypothalamus to reduce food intake in an additive manner. [ABSTRACT FROM AUTHOR]

Published

2013