An Improved. Immunocytochemical. Method for Subcellular. Localization of Serotonin in Rat Enterochromaffin. Cells1. OLA. NILSSON,2. ANNICA. DAHLSTROM,.
0022-1554/87/$3.30 Thejournal Copyright
of Histochemistry and Cytochemistry 1987 by The Histochemical Society,
©
Vol.
OLA and
NILSSON,2 LABS
Institute France
Sweden;
Artide
DAHLSTROM,
MICHEL
GEFFARD,
(ON,
AD),
Laboratoire
Department
ofSurgery
de Neuroimmunologie,
I (HA),
Institut
and Department
de Biochimie
for
publication
May
20,
1986
and
in revised
form
September
Serotothn-like immunoreactivity (5-HT-LI) has been localized at the ultrastructural level in enterochromaffin (EC) cells of rat gastrointestinal tract. Ultra-thin sections of tissues embedded in epoxy resin were incubated with 5-HT antisera and antibody binding sites were visualized with protein A-gold. Three different antisera were compared and were shown to require different fixation regimens for optimal preservation of5-HT-LI. For one antiserum, tissues fixed in glutaraldehyde and osmium tetroxide could be used to demonstrate 5-HT-LI in EC cells. Immunocytochemical localization of 5-HT can thus be performed with good ultrastructural preservation of tissues. Quantitative evaluation of the intracellular distribution of 5-HT-LI was performed on EC cells from antrum, duodenum, and
localize
terochromaffin
5-HT
(EC)
amounts
storage
cells
of 5-HT
munocytochemically
of
antisera
study
of 5-HT-like
immunoreactivity
trointestinal tract. ized over the dense
(23),
we
(5-HT) antibodies it has become sites
in
tissue
gastrointestinal
(3,4,11),
with
In a previous
have
reported
recently
however,
ervation dehyde
been
which
of the fixation
difficult
subcellular
(5-HT-LI)
to determine
ultrastructure
of Goteborg, Bordeaux,
and
omission
of osmium
September
15,
1986
(6A0758).
(J
Cytochem KEY
35:319, Rats;
WORDS:
1987) Enterochromaffin
Immunocytochemistry;
aim
ofthe
preservation
(EC)
Protein
present
oftissues
stration of 5-HT rat gastrointestinal
and
A-gold;
study
cells;
Serotonin
Electron
was to improve
processed
(5-HT);
microscopy.
the ultrastructural
for immunocytochemical
demon-
to re-evaluate, in well-preserved tract, the subcebbubar localization
EC cells of of 5-HT-LI.
store
studied
im-
Materials Tissue
localization
in EC cells
of rat gas-
of the 5-HT-LI was localgranules, but a significant
because
resulting
En-
accepted
and
Methods
from
the dense in EC cells
of non-optimal
the
need
pres-
for formal-
tuna,
Sweden),
Thirty
weight
Supported by grants from the Swedish Medical Research 2207, 5220), the Medical Faculty of Goteborg University,
Council Dr. TAA
Amundson’s Ikundation, OE and E Johansson’s lkundation, and G#{246}teborg Medical Society. 2 Correspondence to: Ola Nibsson, Institute of Neurobiology, University of Goteborg, POB 330 31, 5-400 33 Goteborg, Sweden.
male
100-150
Sprague-Dawley
g, were
used
rats (ALAB;
for the
Soblen-
experiments.
The
in-
structions for care and use of laboratory animals given by the local Ethical Committee for Laboratory Animals (Goteborg) were followed. Rats were fasted overnight with free access to water before they were anesthetized with sodium pentobarbitab (50 mg/kg IP) and fixed by perfusion via the ascending aorta. After brief pre-perfusion with warm (37’C) isotonic saline containing lidocaine (0.1%), rats were perfused for 4 mm with 200-300 The
tetroxide.
Preparation.
ml of freshly
following
prepared
fixatives
from
M sodium
grade; +
GA
cacodybate, periment, mm
and
used
(cf.
paraformaldehyde saline
at room Table
1):
temperature
(Riedeb-.de
Haen
containing
0.02
(PBS)
(18-20’C).
formaldehyde
4%
AG;
(FA),
Hanover,
FRG),
M phosphate
and
0.15
pH 7.4; 4% FA #{247} 0.5% glutarabdehyde (GA; practical AG, Switzerland) in PBS; 4% FA + 1% GA in PBS; 3% FA
chloride,
Fluka
2%
fixative
were
in phosphate-buffered I
CNRS,
colon, fixed in glutaraldehyde only. In all three the majority of the gold partides (90%) in EC cells were localized over the dense core ofthe secretory granules, while a minor fraction (10%) were localized in parts of the cytoplasm devoid of granules. In EC cells fixed in glutaraldehyde and post-fixed in osmium tetroxide, 5-HTLI was reduced by about 85%, although intracellular distribution was essentially the same as in cells fixed in glutaraldehyde alone. The results indicate that 5-HT in EC cells is stored mainly in secretory granules, with a small fraction of 5-HT being localized outside the granules. Histochem
prepared
(537,
University
du
(10,12,17-19,22,23,26,33).
on
We found that 60% core of the secretory
sections.
tract,
to 5-1-IT
in impossible
fraction of the 5-HT-LI (40%) was localized outside cores. The exact intracellular distribution of 5-HT-LI was,
(LEE),
et Neurochimie
proximal locations,
The
With the introduction of serotonin munocytochemistry (6,7,20,24,31,32,34),
large
AHLMAN,
ofAnatomy
Cellulaire
9, 1986;
Introduction
directly
HAKAN
(MG).
Received
to
1987 USA.
ERICSON
ofNeurobiology
Goteborg,
319-326,
Immunocytochemical Method for Subcellular of Serotonin in Rat Enterochromaffin Cells1 ANNICA
E.
3, pp.
Printedin
Original
An Improved Localization
35, No.
Inc.
in PBS;
2%
FA
+
pH
and
5%
GA
rats then
7.2;
were with
perfused a mixture
3%
in PBS;
in 0.05
in two ofFA
and
2.5%
GA
M sodium
steps,
first
in 0.05
cacodylate. with
GA for another
4%
M sodium In one
FA in PBS
4 mm.
After
cxfor 4
perfu-
319
Downloaded from jhc.sagepub.com by guest on September 12, 2016
320
NILSSON,
Table
1 . Summary
localization
offixatives
ofserotonin
testedjor
in
Primary
EC
Post-fixation
A. 4% FA
and
4%
FA
+
0.5%
4%
FA
+
1%
3%
FA
+
2%
GA GA
2%
FA
+
3%
GA
2.5%
GA
GA
0.1-1%
±
by 4% FA
0.5%
+
acetate
FA
+
1%
3%
FA
+
2%
GA GA
2%
FA
+
3%
GA
(21);
(b) etching
0.1 M hydrochloric
distilled
water
60 mm,
followed
sections
were
A-gold.
by extensive
incubated
ERICSON
AHLMAN,
saturated
for
sodium-M-periodate
10 mm,
followed
with saturated
rinsing
the
diluted
water
antisera
rabbit/rat
showed
no specific
sections
in
sodium-M-periodate
in distilled
or normal
for
by washings (5).
absorbed
serum
etched
borohydride controls, with
followed
labeling
for
Some
were treated with 1% sodium incubation. Rr immunocytochemical with
sulphate
Control
with acid
and (c) etching
(9);
HI-creatinine
GA
4%
water
and
and un-etched sections (NaBH4 for S mm before
OsO,
1 % uranyl
B. 4% FA followed
distilled
10 mm
5 % GA
GEFFARD,
water. Finally, sections were contrasted with uranyl acetate and lead citrate. Some sections were etched before incubation with 5-HI antiserum. Three different procedures were tested: (a) etching with 0.5% potassium hydroxide in absolute ethanol for 3 mm, followed by washings in 96% ethanol
mm unocytochemical
cells
fixative
DAHLSTROM,
excess
5-
by protein
EC cells.
over
Electron Microscopy and Quantitative Evaluation. Quantitative evaluof S-HT-U in EC cells was carried out on sections incubated with antiserum A 24. Different incubation times were tested for the S-HI anation
in one step (A) or
Rats were fixed
two steps (B) by perfusion via the ascending fixative. Some tissue pieces were post-fixed in osby uranyl acetate for 1 hr.
with 200-300 ml of primary tetroxide for 1 hr followed
aorta
mium
tissue pieces from the antrum, duodenum, and proximal colon were dissected out and immersed in the fixative for 1-2 hr. Some tissue pieces were post-fixed in osmium tetroxide (OsO) in concentrations ranging from 0.1% to 1% for 1 hr, with or without subsequent staining en bloc
sion,
in 1% uranyb idly
dehydrated
acetate
in distilled
in ethanol
followed
for
1 hr. All tissue
by propylene
resin (TAAB 812; TAAB Laboratories UK). Polymerization was carried
in expoxy
Berkshire, 60C for 48 hr. Ultra-thin nickel
water
sections
were
oxide,
pieces
were
and
embedded
Equipment
LID,
out at 45’C
cut
and
Production were
Characterization
and used:
(a) a rabbit
of Antisera. anti-5-HT
tein
no
at
5-HI
SER
is the
chemical
form
of 5-HI
in tissues
fixed
in FA (25,29);
A-gold
(b)
A-gold
complex
(0.25-2
hr).
Maximal
All sections
with S-HI
complex
for
used
for quantitation
(A 24)for
antiserum
1 hr. Etching
of sections
4001
magnification
and 200-1000 tion a
electron
microscope.
From
was not
each
were
1 hr, followed
level
by pro-
performed,
but
borohydride was carried
beout
of the
gastrointesti-
nal tract (antrum, duodenum, and proximal colon), 12 EC cells (four cells from each of three rats) fixed in 2.5% GA alone were evaluated. In addition, 15 duodenal EC cells (five cells from each ofthree rats) fixed in 2.5% GA and 1% OsO were evaluated. Counting ofgold particles over different cytopbasmic compartments of EC cells was performed on micrographs at a final
7-7)
raised against 5-HI, coupled to bovine serum albumin (BSA)with FA (31). The antiserum reacts primarily with 6-hydroxy-tetrahydro-3-carbobine, which
protein
labeling.
incubated
in a Philips
Reading,
different
(code
the
sections from osmicated tissues were treated with sodium fore incubation. Examination and photography ofsections
on unsupported
Three
antiserum
hr) and
in background
therefore
grids.
antisera
(0.25-6
increase
rap-
for 12 hr and
placed
tiserum
immunobabebing was already obtained after 1-hr incubation with S-HI antiserum and 1-hr incubation with protein A-gold complex. Prolongation ofincubation times did not increase immunolabeling but caused a gradual
areas
point
of
x 85,000.
gold particles of the
counting
different using
Approximately
were counted cytoplasmic
a multi-purpose
55-70
granule
per cell profile. compartments
were
testline
(35)
system
profiles
The relative
sec-
estimated with
by
approxi-
rat monoclonal anti-S-HI antibody (Mas 055 clone YC 5/45 HKL; Sera Lab lid, Crawley Down, Sussex, UK) raised against 5-HT, coupled to BSA with FA (7). The antibody has a specificity similar to that ofSER 7-7 (7); and (c) a rabbit anti-S-HI antiserum (A 24) raised against 5-HI coupled to BSA or human serum albumin (HSA) with GA (S-HI-GA-BSA and 5-HT--GA-HSA). In ELISA tests the antiserum reacts primarily with 5-HI-GA-polybysine (PL) and only to a small extent with 5-methoxytryptamine-GA-PL, S-hydroxytryptophane-.GA-PL, or tryptamine-GAPL. These latter conjugates were 42, SO, and 538 times less recognized by the 5-HI antiserum than was 5-HT-GA-PL (13).
mately 85 test points per tm2 section area. Nonspecific labeling of sections (background labeling) was estimated by calculating the density of gold particles over epithebial non-EC cells. Background labeling was expressed as the relative density ofgold particles (in percent) over epithebial non-EC cells as compared to the density of gold particles over EC cell cytoplasm.
Preparation ofProtein by reducing tetrachboroauric
and duodenum),
Gold
particles
with
A-Gold. Monodisperse gold sobs were prepared acid with sodium citrate and tannic acid (30).
an average
diameter
of 10 nm
were
adsorbed
grids the
carrying various
scheme 1% BSA
antiserum followed
ultra-thin
plastic
incubation
was essentially
solutions according
in PBS for S mm,
sections
sections placed
were on
to Roth
(27).
were
incubated
were carried Unsupported
immersed
in small
Parafllm. Alter
The pre-incubation
with
diluted
measurements
on
EC cells
were
corrected
for
background
labeling.
Statistics. The intracellular distributions ofgobd particles in GA-fixed EC cells from antrum, duodenum, and proximal colon were compared by performing a one-way analysis of variance (2). In the design of the study,
it was
assumed
that
the
direction
of the
difference
if there
were any, would
characteristic
electron-dense
(e.g.,
between
antrum
be the same for all animals.
to protein
A (Pharmacia Fine Chemicals; Uppsala, Sweden) at pH 6.9 and the compInt was then stabilized with polyethylene glycol (PEG 20,000)(16,28). Alter three centrifugations at 40,000 x g for 30 mm, the protein A-gold complex was re-suspended and stored in PBS containing 0.02% PEG and 0.1% sodium azide. bmmunocytochemical Procedures. All incubations room temperature (18-20C) in a moist chamber.
All
out at nickel drops
of
incubation with anti-S-HI
(SER 7.7 1:400; YC 5/45 HKL 1800; A 24 110#{174})for 1 hr, by extensive rinsing in PBS. Sections were transferred to the protemn A-gold solution for 1 hr. followed by washing in PBS and distilled
Results EC cells with
in mucosal
observed
three
levels
studied.
was obtained
after
1%
uranyl
the
EC cells
a limiting
tion
The
best
After
were
shown
membrane space fixation
of the secretory
secretory
granules
of the gastrointestinal ultrastructural
GA fixation
acetate.
electron-lucent the other
epithelium
(2.5%)
such
preservation followed
of tissues
by 1% OSO4 and granules
of
of a dense
core surrounded
by
separated
from
dense
procedures granules
20-50 were
the
at all
to consist
of some
fixation,
were
tract
nm used,
secretory
the (Figure
core
8). When
ultrastructural
was less satisfactory.
Tissues
by
an
any of preservafixed
in
GA were generally much better preserved than tissues fixed in FA (cf. Figures 1, 2, 3, and 5-7). Reduction ofthe 0504 concentration
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Figures 1 and 2. EC cells from rat duodenum fixed in 4% FA and incubated with antiserum SEA 7-7 (Figure 1) or YC 5/45 HKL (Figure 2) and protein A-gold to visualize 5-HT-Iike immunoreactivity. Gold particles are concentrated over dense-core profiles but are also present over extra-granular parts of the cytoplasm, as well as over cell nuclei (N). Fixation quality is inferior to that after fixation in GA (ct. Figures 3 and 5-7). Bars - 0.2 tm.
below 0. 5 % resulted in loss of the limiting membrane of the secretory granules although the dense cores were still clearly visible. As
used
a consequence, a sharp delineation of the granular was difficult to make. Demonstration of 5-HT-U in EC cells could
fixed
performed
with
pendent tamed
on with
all antisera
the
fixation
the three
used,
but
the
procedure
different
success
employed.
5-HT
antisera
compartment
ing
(2-3% could
was highly The
results
are described
in EC Cells as Detected
Antisera
SER
The
obtained
results
7-7
and with
and are therefore described 5-HT coupled to a protein ing ofEC
cells after
YC
de-
perfusion
ob-
procedure,
below.
by
the two antisera
together. These antisera, with FA, gave maximal
fixation
of tissues
in 4%
to be identical raised against immunobabel-
FA alone.
Gold
parti-
des were specifically localized to EC cells, with bow background labeling over the cytoplasm ofother epithebial non-EC cells. In EC cells, a majority of the gold particles were concentrated over the dense core of the secretory granules (Figures 1 and 2). Cell nuclei of both EC cells and non-EC cells were moderately labeled. Fixaiion
of tissues
babebing
with
a mixture
of EC cell granules
of FA and when
high
GA
markedly
concentrations
reduced of GA were
alone EC
was used
cells.
labeling
(Figure
4).
4%
background Osmication
GA
labeling
and fixed
of 0.1%
bow concentration
was
of 0504
labeling
of
EC
hydroxide,
No
could
0.5%-1%
labeling,
be
0504.
strated
This
in secretory
5-HT-LI
this
A
included
in the
tissues
fixation
improved,
over cell nuclei
was re-
labeling
appreciable
in
that with
with potassium borohydride.
after
demonstrated
Cells
still
of EC
0504. The deleterious effect of Ofl immunobabebing could be par-
even
meant
granules
in EC
Antiserum With
cells.
could
in the second
in FA decreased
tialy overcome by etching the sections followed by treatment with sodium other two etching procedures had any ing
granules
of
were
by a mixture
GA was used
preservation
of tissues
tissues
FA followed
3%
no label-
when
of secretory
When
ultrastructural
as fixative,
However,
with
in EC cells when
at a concentration
this
appeared
excellent
step
whereas cells
HKL
5/45
GA,
GA over
perfusion
be demonstrated
duced.
5-HT-LI
When
detected
by sequential
of FA and
be successfully
GA). be
5-HT-LI
with
cells could
preserved
as Detected
effect
etching
EC
hydroxide, None of the on
label-
potassium
post-fixed not
be demon-
limiting
membranes.
coupled
to a protein
by
24
antiserum,
Downloaded from jhc.sagepub.com by guest on September 12, 2016
raised
against
5-HT
in
NILSSON,
322
DAHLSTROM,
GEFFARD,
ERICSON
AHLMAN,
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IMMUNOCYIXCHEMICAL
Table 2. Distribution ofgoldparticles processedfor immunocytochemical
323
OF SERONIN
LOCALIZATION
in EC cells ofrat localization ofserotonin
gastrointestinal tract fixed using antiserum A 24
Cytoplasm
Cytoplasm without granules
Relative
number
gold
particles
(%,
mean
SEM)
±
Relative
(%,
of
section
mean
Density
area SEM)
±
of gold
in glutaraldehyde
Total
alone
with
and
granules
Dense
core
Non-dense
core
A:
9.6
±
1.3
90.4
±
1.3
7.4
±
0.8
83.0
±
1.7
D:
5.0
±
0.8
95.0
±
0.8
5.1
±
0.3
89.9
±
0.9
0.9”
C:
5.8
±
0.6a
94.2
±
O.6a
6.0
±
0.4’
88.2
±
A:
80.2
±
1.8
19.8
±
1.8
2.8
±
0.3
17.0
±
1.5
D:
63.4
±
2.8
36.6
±
2.8
4.2
±
0.3
32.4
±
2.6
C: 67.8
±
3.0”
32.2
±
3.0”
4.0
±
0.3”
28.2
±
2.7”
9.7
particles
A:
1
51.7
±
9.0
27.9
±
5.4
55.6
±
(in relation to that of
D:
1
52.4
±
14.8
22.8
±
5.3
56.8
±
16.5
cytoplasm
C:
1
41.0
±
5.7
21.0
±
3.5
43.9
±
6.0
mean
without
granules;
n.s.’
n.s.’
From
each level of the gastrointestinal tract 12 EC cells were analyzed. Average number of gold particles per dense-core profile of EC cells from different levels of the gastrointestinal tract was performed by one-way analysis of variance. The test variable of freedom. Background labeling was 1.0%-2.8%. A, antrum; D, duodenum; C, colon.
was
Comparison
a
