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Expression and function of microRNA-9 in the mid-hindbrain area of embryonic chick
Authors:A. Alwin Prem Anand  Carola Huber  John Asnet Mary  Nancy Gallus  Christoph Leucht  Ruth Klafke  Bernhard Hirt  Andrea Wizenmann
Affiliation:1.Institute of Clinical Anatomy and Cell Analysis,University of Tuebingen,Tuebingen,Germany;2.Department of Zoology,Fatima College,Madurai,India;3.Institute of Developmental Genetics,Helmholtz Zentrum München, Deutsches Forschungszentrum für Gesundheit und Umwelt (GmbH),Neuherberg,Germany;4.Robert-Bosch-Krankenhaus,Stuttgart,Germany;5.Department of Neurobiology, McKnight Brain Institute,University of Alabama at Birmingham,Birmingham,USA
Abstract:

Background

MiR-9 is a small non-coding RNA that is highly conserved between species and primarily expressed in the central nervous system (CNS). It is known to influence proliferation and neuronal differentiation in the brain and spinal cord of different vertebrates. Different studies have pointed to regional and species-specific differences in the response of neural progenitors to miR-9.

Methods

In ovo and ex ovo electroporation was used to overexpress or reduce miR-9 followed by mRNA in situ hybridisation and immunofluorescent stainings to evaluate miR- expression and the effect of changed miR-9 expression.

Results

We have investigated the expression and function of miR-9 during early development of the mid-hindbrain region (MH) in chick. Our analysis reveals a closer relationship of chick miR-9 to mammalian miR-9 than to fish and a dynamic expression pattern in the chick neural tube. Early in development, miR-9 is diffusely expressed in the entire brain, bar the forebrain, and it becomes more restricted to specific areas of the CNS at later stages. MiR-9 overexpression at HH9–10 results in a reduction of FGF8 expression and premature neuronal differentiation in the mid-hindbrain boundary (MHB). Within the midbrain miR-9 does not cause premature neuronal differentiation it rather reduces proliferation in the midbrain.

Conclusion

Our findings indicate that miR-9 has regional specific effects in the developing mid-hindbrain region with a divergence of response of regional progenitors.
Keywords:
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