J L Guesdon, T Ternynck and S Avrameas. The use of avidin-biotin interaction in immunoenzymatic techniques. Published by: http://www.sagepublications.com.
Journal of Histochemistry & Cytochemistry http://jhc.sagepub.com/
The use of avidin-biotin interaction in immunoenzymatic techniques. J L Guesdon, T Ternynck and S Avrameas J Histochem Cytochem 1979 27: 1131 DOI: 10.1177/27.8.90074 The online version of this article can be found at: http://jhc.sagepub.com/content/27/8/1131
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131$02.0O/O
0022-1554/79/2708-1 JOURNAL
THE
Copyright
OF HISTOCHEMISTRY
© 1979 by The
The
AND
Histochemical
Use
Vol. 27, No. 8, pp. 1131-1139,
CYTOCHEMISTRY
Society,
Inc.
of Avidin-Biotin JEAN-LUC Unite
1979 in U.S.A.
Printed
Interaction
GUESDON,
THERESE
d’Immu,wcytochimie,
in Immunoenzymatic
TERNYNCK
STRATIS
AND
D#{233}partement de BiOIOgie
Techniques
AVRAMEAS
Mol#{233}culaire,
Institut
(MS
Pasteur,
79-164)
Paris,
France
was covalently attached to antibodies, antigens and enzymes, and the effects of this labeling antigen and antibody binding capacity and on enzymatic activity were tested. Based on avidinbiotin interaction, the labeled proteins were used in quantitative enzyme-immunoaseay and enzymeimmunohistochemical staining procedures. Two procedures were developed. In the first procedure, named the Bridged Avidin-Biotin (BRAB) technique four steps were used sequentially in order to quantify or detect an immobilized antigen: 1) incubation with biotin-labeled antibody; 2) incubation with avidin; 3) incubation with biotin-labeled enzyme; 4) measurement or histochemical staining of the enzyme. The technique is based on the observation that avidin possesses four active sites. In the second procedure, named the Labeled Avidin-Biotin (LAB) technique, biotin-labeled antibody and enzyme-labeled avidin are used sequentially. Enzyme-associated antigen is then quantified or revealed immunohistochemically. The optimal conditions for enzyme-immunoassay and enzyme-immunohistochemical staining using BRAB and LAB procedures were established. Biotin
on the
Detection, antibodies
localization by
and
quantitation
immunoenzymatic
of
techniques
antigens
and
the
necessitate
the
the
action been
of used
tion
(7),
avidin-biotin in various gene
but
cellular
constant:1015 as bacteriophage
mapping
(13-15,
(16) and immobilization work, based on the
tion, two procedures for scribed. These procedures
linking were
procedure, enzyme,
enzymes applied
inter-
antibodies
an antigen, with the
eliminate incubation
antibody, avidin the biotin-labeled
excess labeled and washing,
substitution
antigen-binding
ing de-
activity
the biotin-labeled antigen. After washing
tein, of
the
secondarily procedure
antibody
(2,
19,
with
biotin
The remaining for another
residues
added to the system is similar to that
(Fig. 1A). described
21)
Concanavalin
and
tetravalent
profoundly
on
with
the
affected
antigen
that
was
antigen, even
in antibody
was
not with
capacity was enzymes
peroxidase, decreased
antianti-
and, after washing, further incubation
biotin, noted. remained
Aspergillus (Escherichia (E.
coli
and with
molecules
modified.
such
Dependloss
The
of up to
catalytic either un-
niger glucose coli $-galactoalkaline
phospha-
observations, the optimal conditions and in enzyme-immunohistochemistry LAB procedures were established.
MATERIALS
for
was of
sites pro-
The principle for bivalent A (3).
In
AND
METhODS
grade I (RZ = 3) and grade II (RZ = 0.6) and A. niger glucose oxidase grade I were obtained from Boehringer (France). E. coli alkaline phosphatase (BAPSF) was purchased from Worthington Biochemical Corp. (Freehold, N.J.). Purified E. coli f-D-galactosidase was obtained by courtesy of Dr. Agnes (Institut Pasteur, Paris). Rabbit y-globulin fraction II (Ig) was purchased from Miles Laboratories (Kankakee, Ill.) and bovine serum albumin (BSA) from Provite (Amsterdam, The Netherlands). AVidin, chromatographically prepared from egg white, was a product of Sigma Chemical Co. (St. Louis, Mo.). Antisera, antibodies and their Fab fragments: Rabbit and sheep antisera against the various proteins used in the present work Proteins:
associated
free active biotin-labeled
or was Based
to as
to
was added. After enzyme was then
will
react
be referred
(Fig. 1B). In the followto as the Labeled Avidin-
groups
capacity
of antigen-labeling
enzyme-immunoassay using BRAB and
anti-
sites,
antibody. as acceptors
degree
(horseradish was slightly
sidase), tase).
antigen After
associated
of amino
of antibody binding of biotin-substituted
changed oxidase)
and for of intra-
will
(LAB) technique. effects of introducing biotin into antibody, molecules were studied. It was found
on the
40%
procedure
(BRAB) technique. biotin-labeled antibody (or avidin were used. The labeled
or measured be referred
will
by biotin,
with the antigen (Fig. 1A). The proceprinciple that avidin possesses 4 active
all of which
enzyme
extensive
the enzyme associated dure is based on the not
the
selective
This step, after a further incubation and washing, by the histochemical staining or the measurement
with immobilized can then operate
washing,
stained histochemically ing, this procedure
M) has inactiva-
to proteins are to the quantitation,
this
to react with the avidin was added.
Biotin The enzyme
biotin-labeled antibody (or antigen), and native unlabeled avidin were used.
To quantify or to detect body was allowed to react
added. followed
17),
(2,
of macromolecules biotin-avidin interac-
by enzyme-immunoassay, of antigens and the localization by enzyme-immunohistochemistry cellular immunoglobulins. In the first biotin-labeled
strong
body was allowed enzyme-labeled and
immunological binding
exceptionally
(dissociation systems such
and
absorption of cells (18). In the present
the noncovalent for antibody-enzyme
description,
Bridged Avidin-Biotin In the second procedure, gen) and enzyme-labeled
use of enzyme-protein conjugates. For the preparation of such conjugates, a number ofprocedures using various cross-linking agents have been described. In general, these conjugates were prepared by covalently coupling the enzyme marker to the antibody (1, 5, 20, 22), but reaction has also been used 19, 21). Recently, the noncovalent
following
Horseradish
1131
Downloaded from jhc.sagepub.com by guest on July 9, 2011
peroxidase
GUESDON,
1132
TERNYNCK
AND
AVRAMEAS
Biotin-labeling of proteins: Biotinyl-N-hydroxysuccinimide (BNHS) was used for introducing biotin moieties into proteins. It was prepared according to the procedure described, by Jasiewicz et al. (16) by using N-N-carbonyl diimidazole (Aldrich Chemical Co., Milwaukee, Wisc.) to form an intermediate biotin derivative which was subsequently 2
>qp
-
