Bitte beachten Sie: Diese Stellenanzeige ist nicht mehr aktiv.
Entdecken Sie hier weitere Stellenanzeigen auf academics, dem führenden Stellenmarkt für Wissenschaft und Forschung. Um regelmäßig per E-Mail über passende Stellen informiert zu werden, können Sie sich jederzeit kostenlos registrieren.
Predoctoral Fellow / PhD student (f/m)
Veröffentlicht am(vor 179 Tagen)
Bewerbungsende(vor 155 Tagen)
Universitätsklinikum Carl Gustav Carus DresdenDresden
The main focus of the Division of Nephrology of the Department of Internal Medicine III (Head: Prof. Dr. med. Ch. Hugo;
(http://www.nephrologie-dresden.org) is the diagnosis
and treatment of renal diseases and hypertension. Nephrology is a division with a lot of research possibilities with
national and international collaborations and includes a wide variety of basic and patient-based clinical research.
Hereby, we aim to offer medical treatments to our patients which is always based on the latest evidence and to develop
innovative therapies by our clinical and translational studies. The Experimental Lab of the Division of Nephrology
(Head: Prof. Dr. med. Ch. Hugo; (http://www.nephrologie-dresden.org),
Medical Clinic III at the University Hospital Carl Gustav Carus in Dresden has a vacant position for
Predoctoral Fellow / PhD student (f/m)
The position is immediately available. The contract is planned for 36 months, but will start with a period of 12 months.
The successful candidate will incorporate into ongoing projects on the identification and characterization of stem and progenitor cell niches participating in the regeneration of the kidney.
Our group focuses on the regenerative mechanisms in the kidney with respect to molecular and cellular interactions of resident and extrinsic
cell types by generating and using transgenic mice, in vivo gene transfer methods, and kidney organoids from human iPS cells. By creating a
triple transgenic mouse model, we have recently identified renin-positive cells (RLCs) as the important precursor cell type for glomerular
regeneration after injury (Starke et al., J Am Soc Nephrol 2015; Hickmann et al., Kidney Int 2017). Using longitudinal intravital microscopy
of the same labelled cell (RLC) within the same renal structure in mice, we are able to track these cells daily during renal regeneration.
Future studies will in particular focus on the interaction of the immune system (dendritic cells, macrophages, cytokines) with the activation,
differentiation and regulation of this renal precursor cell niche.
Mesangial cell injury and insufficient regeneration play a major role in many inflammatory chronic kidney diseases including the most frequent
mesangial proliferative glomerulonephritis (IgA type). In our murine model of mesangial injury, successful repair depends on the timely recruitment
of mesangial progenitor cells immigrating the glomeruli. We found that RLC precursors cells the juxtaglomerular apparatus (JGA) repopulate the
glomerulus after mesangial injury, thus defining a novel progenitor cell niche for glomerular repair. The RLCs are markedly influenced by inflammatory
cytokines and are also featured by functional innate immunity signalling. Therefore, the principal aim of the project is to study the interplay between
innate immunity and the progenitor RLC niche during mesangial cell regeneration after glomerular injury. The understanding of the molecular mechanisms
of this interaction is clinically important for developing specific therapeutic strategies to beneficially influence the processes of kidney repair
in chronic kidney disease.
The PhD student will be expected to work on the characterization of different transgenic mice with compromised signalling mechanisms of innate
immunity in progenitor Renin Lineage Cells (RLCs). Within her / his work, the longitudinal intravital microscopy of immune, glomerular (and other
renal) cells will be a fundamental methodology to learn and apply to this project. In addition IHC, in situ hybridization, FACS, cell sorting,
transcriptome and proteome analysis, as well as cell culture assays will be techniques (all of which are established within the group) being
used in this thesis/project at the highest possible level.
We are looking for highly motivated applicants pursuing a PhD thesis with translational potential in experimental nephrology / regenerative mechanisms.
A detailed CV (with publications if available), cover letter and the names of two references should be provided.
We offer an interesting research field with an excellent basic research scientific campus including the Center for Regenerative Therapies Dresden (CRTD),
the Medical Faculty, the BIOTEC and the Max-Planck Institute for Cell Biology and Genetics in close neighbourhood to the historic city of Dresden.
We offer you:
Employment in the leading research, academic teaching and health care connected with a highly specialized working environment
Realization of own ideas and employment in an innovative interdisciplinary team
Flexible working hours possible for the realization of the combination of family and job
Childcare by partnerships with nurseries near the University Hospital
Use of company prevention offers, courses and fitness in our health centre Carus Vital
Company pension plan for the time after the active employment
Vocational training and professional development with individual planning of your career
Women are explicitly invited to apply. Handicapped persons will be preferred in case of equal qualification.
We kindly ask you to apply preferably via our
to make the selection process faster and more effective. Of course, we also consider your written application without any disadvantages.
We look forward to receiving your application, until April 22th, 2018 online with Registration number MK30918099.
For further information please contact: Susanne Dollfus, Phone 0351-458-4233 or by Mail:
Um unsere Webseite optimal gestalten und fortlaufend verbessern zu können, verwenden wir Cookies. Durch die weitere Nutzung der Webseite stimmen Sie der Verwendung von Cookies zu. Weitere Informationen sowie Hinweise dazu, wie Sie die Speicherung der Cookies verhindern können, finden Sie in unserer Datenschutzerklärung.