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Document Description
Title
Testosterone
masculinizes
the
development
of the
substance
P-immunoreactive
innervation
of the
rat
limbic
forebrain
Author
Brown
,
Sandra
A.
,
1959-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
1992.
Medicine
Date
1991
Pagination
vii, 88 leaves : ill.
Subject
Sex
differentiation--Endocrine
aspects;
Limbic
system;
Rats--Development
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Faculty of Medicine
Discipline
Medicine
Language
Eng
Notes
Bibliography:
leaves
72-85.
Abstract
Marked
sex
differences
in the
substance
P-immunoreactive
(SPir)
innervation
of the
most
posterior
divisions
of
both
the
medial
nucleus
of the
amygdala
(MEPD)
and
medial
bed
nucleus
of the
stria
terminalis
(BSTMP)
have
recently
been
described
in
adult
rats.
The
present
study
has
examined
the
effects
of
early
postnatal
testosterone
exposure
on the
development
of the
SPir
innervation
of these
regions
and on
certain
cell
groups
within
the
medial
amygdala
and the
BSTMP.
Four
groups
of
animals
(n=4/group)
were
compared.
Males
were
either
gonadectomized
(GM)
or
sham-operated
(SM)
on
day
1
,
while
females
were
injected
subcutaneously
with
either
vehicle
(SF)
or
500
ug
testosterone
propionate
(TF)
on
days
2
and
5.
All
animals
were
killed
before
puberty
at
day
27.
Alternate
sections
were
either
stained
with
cresyl
violet
or for
SP
using
the
peroxidase-anti-peroxidase
method.
The
areas
of
dense
SPir
fiber
staining
and of
relevant
cell
groups
(cresyl
staining)
were
measured
using
a
microcomputer-based
image
analysis
system.
--
Marked
sex
differences
were
seen
in the
medial
amygdale
and
medial
posterior
bed
nucleus
before
puberty.
The
areas
of the
discrete
,
darkly-staining
fields
of
SPir
fibers
in
MEPD
(MEPD-SP)
and in the
most
medial
part
of
BSTMP
(BSTMPM-SP)
were
larger
in
sham
males
than in
sham
females
, as they are in
adults.
The
cell
groups
MEPD
,
BSTMP
, and the
lateral
division
of
BSTMP
,
BSTMPL
, were also
significantly
larger
in
sham
males
than in
sham
females.
The
early
postnatal
treatments
completely
reversed
these
sex
differences
for
features
of the
BSTMP
,
i.e.
measures
from
groups
SM
and
TF
were
similar
and
larger
than
measures
from
groups
SF
and
GM
which
were also
similar.
Similar
results
were
seen
for the
sexually
dimorphic
features
of the
amygdala
,
MEPD
and
MEPD-SP.
The
areas
of these
features
were not
significantly
different
in
groups
SF
and
GM
and were
smaller
than in
groups
SM
and
TF.
However
, these
features
were
larger
in
group
SM
than in
group
TF.
Thus
injecting
newborn
females
with
testosterone
did
not
completely
masculinize
MEPD
and
MEPD-SP.
Unexpectedly
,
it
was also
found
that
certain
features
of the
medial
amygdala
and
medial
bed
nucleus
were
larger
in the
left
than in the
right
hemisphere.
--
The
sex
differences
described
here are
consistent
with the
results
of
recent
studies
which
describe
a
sexually
dimorphic
system
of
heavily
interconnected
cell
groups
which
includes
the
vomeronasal
olfactory
pathway
, the
most
posterior
parts
of the
medial
amygdala
and
medial
bed
nucleus
, and the
medial
preoptic
nucleus.
These
regions
have been
implicated
in the
regulation
of a
number
of
sexually
differentiated
brain
functions
in the
rat.
The
present
data
are
important
because
they
suggest
that
SPir
neurons
form
an
important
part
of this
sexually
dimorphic
circuitry
, and
demonstrate
that these
sex
differences
are
present
before
puberty.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
76118614
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(13.46
MB)
--
http://collections.mun.ca/PDFs/theses/Brown_SandraA.pdf
CONTENTdm file name
236310.cpd
