Primary hippocampal neurons at DIV 10 were transfected using 1.5 µg plasmid and 1µLof the Magnetofection-based transfection reagent CombiMag.
This work demonstrates the high efficiency of Magnetofection method to transfect primary cultures of rat hippocampal neurons with DNA using Magnetofection method. CombiMag from OZ Biosciences was used in this paper in association with L2000.
paper reference: Front Mol Neurosci. 2013 Apr 10;6:7.
Improved method for efficient imaging of intracellular Cl(-) with Cl-Sensor using conventional fluorescence setup.Friedel P, Bregestovski P, Medina I.
Abstract
Chloride (Cl(-))
homeostasis is known to be fundamental for central nervous system
functioning. Alterations in intracellular Cl(-) concentration ([Cl(-)]i)
and changes in the efficacy of Cl(-) extrusion are involved in numerous
neurological disorders. Therefore, there is a strong need for studies
of the dynamics of [Cl(-)]i in different cell types under physiological
conditions and during pathology. Several previous works reported having
successfully achieved recording of [Cl(-)]i using genetically encoded
Cl-Sensor that is composed of the cyan fluorescent protein (CFP) and
Cl(-)-sensitive mutant of the yellow fluorescent protein (YFPCl).
However, all reported works were performed using specially designed
setups with ultra-sensitive CCD cameras. Our multiple attempts to
monitor Cl(-)-dependent fluorescence of Cl-Sensor using conventional
epifluorescence microscopes did not yield successful results. In the
present work, we have analysed the reason of our failures and found that
they were caused by a strong inactivation of the YFPCl component of
Cl-Sensor during excitation of the CFP with 430 nm light. Based on the
obtained results, we reduced 20-fold the intensity of the 430 nm
excitation and modified the recording protocol that allows now stable
long-lasting ratiometric measurements of Cl-Sensor fluorescence in
different cell types including cultured hippocampal neurons and their
tiny dendrites and spines. Simultaneous imaging and patch clamp
recording revealed that in mature neurons, the novel protocol allows
detection of as little as 2 mM changes of [Cl(-)]i from the resting
level of 5-10 mM. We demonstrate also a usefulness of the developed
[Cl(-)]i measurement procedure for large scale screening of the activity
of exogenously expressed potassium-chloride co-transporter KCC2, a
major neuronal Cl(-) extruder that is implicated in numerous
neurological disorders and is a target for novel therapeutical
treatments.
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