Thiolacetic Acid

The thiocholine (ThCh) and thiolacetic acid (ThAc) methods for the histochemical localization of acetylcholinesterase (AChE) and cholinesterases (ChE's) were modified to permit the substitution of aurous gold for copper and lead, respectively, as the capturing agent. The chief advantage of the modifications is that the precipitates formed (AuThCh-phosphate and AuS) have fine, colloidal dimensions and high electron density, thus improving their potential usefulness as electron microscopic methods. By means of selective inhibitors of AChE (10–5 M BW 284), of ChE's ( 10–7 M DFP or 3.10–8 M Nu-683), and of both enzymes (10–5 M DFP or eserine), it was shown that the gold thiocholine (AuThCh) method retains the high specificity of the original ThCh method, whereas the gold thiolacetic acid (AuThAc) method, like the lead ThAc procedure, is considerably less specific. However, the AuThAc method appears to permit finer localization than the AuTuCh technique.

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Fieser and Fieser's Reagents for Organic Synthesis ◽

10.1002/9780471264194.fos09825 ◽

2006 ◽

Author(s):

Tse-Lok Ho ◽

Mary Fieser ◽

Louis Fieser

Keyword(s):

Thiolacetic Acid

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ACETYL DISULFIDE, (CH3COS)2, AND BIS-(THIOACETOXY) AURATE (I) COMPLEX, Au(CH3COS)2–, HISTOCHEMICAL SUBSTRATES OF UNUSUAL PROPERTIES WITH ACETYLCHOLINESTERASE

Journal of Histochemistry & Cytochemistry ◽

10.1177/16.12.754 ◽

1968 ◽

Vol 16 (12) ◽

pp. 754-764 ◽

Cited By ~ 14

Author(s):

GEORGE B. KOELLE ◽

RICHARD DAVIS ◽

MARTINA DEVLIN

Keyword(s):

Metal Ion ◽

Histochemical Staining ◽

Histochemical Reaction ◽

Black Precipitate ◽

Spontaneous Hydrolysis ◽

Sigmoid Curve ◽

Fine Localization ◽

Thiolacetic Acid ◽

Bell Shaped Curve ◽

Supernatant Solution

The histochemical reaction for acetylcholinesterase (AChE) employing acetyl disulfide ([CH3COS]2, or AcDiS) as substrate and 0.006 M Pb(NO3)2 as capturing agent was characterized by (1) a sigmoid curve for velocity of hydrolysis versus substrate concentration and (2) a red precipitate (presumably [CH3COSS]2Pb) at sites of AChE at the motor endplates (MEP's) and (from spontaneous hydrolysis) in the supernatant solution. With the addition of 0.03 M thiolacetic acid (TA) to the incubation medium, which by itself produced little or no histochemical staining, the foregoing characteristics were changed to (1) a bell-shaped curve, with the peak at 0.003 M AcDiS, and (2) a black precipitate (presumably PbS) at the MEP's and in the supernatant solution; in addition, the velocity of hydrolysis was increased approximately 100-fold. Comparable differences were obtained with AcDiS as substrate when using ionic Au+ or Au(S2O3)2–3 as the capturing agent. Results are explained on the basis that in the absence of free heavy metal ion ( i.e., with the Pb[TA]2 or Au[S2O3]2–3 complex), AcDiS combines with AChE at both the anionic and esteratic sites, whereas, in the presence of Pb2+ or Au+, attachment of the substrate occurs only at the esteratic site of the enzyme. Results similar to the former type were obtained when the bis-(thioacetoxy) aurate (I) complex (Au[CH3COS]2– or Au[TA]2– served as both substrate and capturing agent. With both the AcDiS-Au(S2O3)2–3 and Au (TA)2– methods, extremely fine localization of AChE was obtained at the MEP's by electron microscopy.

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