TY - JOUR
T1 - Method for identifying neuronal cells suffering zinc toxicity by use of a novel fluorescent sensor
AU - Frederickson, Christopher J.
AU - Burdette, Shawn C.
AU - Frederickson, Cathy J.
AU - Sensi, Stefano L.
AU - Weiss, John H.
AU - Yin, Hong Z.
AU - Balaji, Rengarajan V.
AU - Truong-Tran, Ai Q.
AU - Bedell, Eric
AU - Prough, Donald S.
AU - Lippard, Stephen J.
N1 - Funding Information:
This work was supported by grants from the McKnight Foundation for the Neurosciences and GM65519 from the National Institutes of General Medical Sciences (SJL), and by NIH grants NS38585, NS40215, and NS41682 (CJF); NS30884 and AG00836 (JHW); AG00919 (SLS); and NS42894 (DSP). We are grateful to Liz Nolan for assistance in preparing Fig. S1.
PY - 2004/10/15
Y1 - 2004/10/15
N2 - During excitotoxic brain damage, injured neurons accumulate an anomalous, pathological burden of weakly bound, rapidly exchangeable Zn2+ that diffusely fills the soma, nucleus and proximal dendrites. Mounting evidence indicates that this Zn2+ is a major contributing factor in the subsequent demise of the damaged neurons. Thus, identifying, imaging, and characterizing zinc-filled cells have become essential steps in understanding excitotoxicity. Here we demonstrate that a new fluorescent stain for zinc can rather selectively and quite vividly label zinc-filled neurons in frozen histologic sections. The method is more sensitive and selective than the existing stain TSQ, and simpler than the Timm-Danscher silver staining techniques. A previously unobserved population of apparently injured cells in the dentate gyrus has been discovered with the new reagent. Whereas cells viewed in situ in normal, healthy tissue virtually never display any perikaryal staining by histochemical methods for zinc [Histochemistry, 71 (1981) 1; Int. Rev. Neurobiol. 31 (1989) 145], injured cells stain intensely for zinc in culture [J. Neurosci. 17 (1997) 9554], acute slice preparations [J. Histochem. Cytochem. 47 (1999) 969; J. Neurosci. 22 (2002) 1273] and in tissue harvested in vivo [Science 272 (1996) 1013; Annu. Rev. Neurosci. 21 (1998) 347]. Thus, the presence of rapidly-exchangeable, "stainable" perikaryal zinc may be taken as an indicator of cell injury [J. Nutr. 130 (2000) 1471S; Biometals 14 (2001) 353].
AB - During excitotoxic brain damage, injured neurons accumulate an anomalous, pathological burden of weakly bound, rapidly exchangeable Zn2+ that diffusely fills the soma, nucleus and proximal dendrites. Mounting evidence indicates that this Zn2+ is a major contributing factor in the subsequent demise of the damaged neurons. Thus, identifying, imaging, and characterizing zinc-filled cells have become essential steps in understanding excitotoxicity. Here we demonstrate that a new fluorescent stain for zinc can rather selectively and quite vividly label zinc-filled neurons in frozen histologic sections. The method is more sensitive and selective than the existing stain TSQ, and simpler than the Timm-Danscher silver staining techniques. A previously unobserved population of apparently injured cells in the dentate gyrus has been discovered with the new reagent. Whereas cells viewed in situ in normal, healthy tissue virtually never display any perikaryal staining by histochemical methods for zinc [Histochemistry, 71 (1981) 1; Int. Rev. Neurobiol. 31 (1989) 145], injured cells stain intensely for zinc in culture [J. Neurosci. 17 (1997) 9554], acute slice preparations [J. Histochem. Cytochem. 47 (1999) 969; J. Neurosci. 22 (2002) 1273] and in tissue harvested in vivo [Science 272 (1996) 1013; Annu. Rev. Neurosci. 21 (1998) 347]. Thus, the presence of rapidly-exchangeable, "stainable" perikaryal zinc may be taken as an indicator of cell injury [J. Nutr. 130 (2000) 1471S; Biometals 14 (2001) 353].
KW - Brain injury
KW - Damaged neurons
KW - Dentate gyrus
KW - Excitotoxicity
KW - New cells
KW - Subgranular strata
KW - Zinc-specific sensor
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U2 - 10.1016/j.jneumeth.2004.04.033
DO - 10.1016/j.jneumeth.2004.04.033
M3 - Article
C2 - 15351524
AN - SCOPUS:4444358048
SN - 0165-0270
VL - 139
SP - 79
EP - 89
JO - Journal of Neuroscience Methods
JF - Journal of Neuroscience Methods
IS - 1
ER -