GGrantIndex
← Search

Characterization of D3cpv cameleon sensitivity to zinc

$79,750R03FY2012NSNIH

University Of Illinois At Chicago, Chicago IL

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Destabilization of Ca2+ homeostasis plays a critical role in the ischemic neuronal death that takes place during a stroke. To identify pharmacological targets to improve the outcome of stroke, one needs to measure the intracellular Ca2+ concentration ([Ca2+]i). The most common currently used method to measure [Ca2+]i is to monitor the signal of small molecule Ca2+ indicators such as fura-2 or fura-2FF. Unfortunately, this method suffers from a lack of selectivity. Namely, these indicators bind not only Ca2+ but also Zn2+ and both [Ca2+]i and [Zn2+]i increase in ischemic neurons. Consequently, this method yields ambivalent results. A more selective method to monitor [Ca2+]i is needed. Genetically engineered Ca2+ indicators, cameleons, constitute a novel promising research tool to monitor [Ca2+]i. However, it is not yet known how specific for [Ca2+]i versus [Zn2+]i this tool is. The goal of the proposed research is to clarify this issue. We aim to characterize the sensitivity of the D3cpv cameleon to zinc and determine whether this tool can be used to monitor the [Ca2+]i when [Zn2+]i elevations take place concurrently. To this end, the D3cpv fluorescent signal will be monitored in primary mouse hippocampal neurons transfected with D3cpv while the neurons will be exposed to various Zn2+ concentrations in the presence of an agent that transports Zn2+ across the plasma membrane. The reliability of D3cpv as a tool to monitor [Ca2+]i will be tested in the experiments in which D3cpv and fura-2FF signals will be monitored simultaneously in glutamate-treated neurons. These experiments will determine whether using D3cpv, one can resolve fura-2FF signal ambiguities.

View original record on NIH RePORTER →
Characterization of D3cpv cameleon sensitivity to zinc · GrantIndex