First published online February 1, 2008
Journal of Experimental Biology 211, 606-612 (2008)
Published by The Company of Biologists 2008
doi: 10.1242/jeb.015115
Morphological and biochemical changes in the Harderian gland of hypothyroid rats
Rossella Monteforte1,
Alessandra Santillo1,
Antonia Lanni1,
Salvatore D'Aniello2 and
Gabriella Chieffi Baccari1,*
1 Dipartimento di Scienze della Vita, Seconda Università degli Studi di
Napoli, via Vivaldi, 43, 81100-Caserta, Italy
2 Department de Genetica, Facultat de Biologia, Universitat de Barcelona,
Spain
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Fig. 1. Paraffin and cryostat sections of euthyroid and hypothyroid rat Harderian
glands (HGs). (A) The glandular cells of euthyroid rat HG contain dense
basophilic secretory granules and basal nuclei. L, lumen. (B) Glandular cells
from hypothyroid rat HG show pale secretory granules. The acinar lumina (L)
are filled with secretory granules mixed with nuclei and cytoplasmic
fragments. A and B are Mallory stained. (C) The acinar cells from euthyroid
rat HG are positive for the mercury–Bromophenol Blue reaction for
protein. (D) In hypothyroid rat HG some glandular cells are weakly positive
for the mercury–Bromophenol Blue reaction (blue stained), whereas the
others are negative (brown stained). Pycnotic nuclei (arrows) can be observed.
Acini coalescing can also be observed (asterisks). (E) The glandular
epithelium of euthyroid rat HG is weakly positive for the AB/PAS reaction. L,
lumen. (F) Glandular cells from hypothyroid rat HG are positive for AB/PAS
reaction. The lumina (L) are filled with strongly positive AB/PAS secretion.
(G) Cryostat section from euthyroid rat HG. Large Sudan Black-positive
vacuoles (arrowheads) and porphyrin accretions (arrows) are present in
glandular cells. (H) Cryostat section of hypothyroid rat HG. A few small
vacuoles stained with Sudan Black are observed outside the acini (arrows).
Scale bars, 16 µm.
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Fig. 2. Electron micrographs of type A cells from euthyroid rat Harderian gland
(HG). (A) Large cytoplasmic vacuoles filled with moderately electron dense
material occupy all the cytoplasm. The basal nucleus (N) has a prominent
nucleolus. Scale bar, 7 µm. (B) Mitochondria with numerous tubular cristae
and glycogen granules (arrows) are observed throughout the cytoplasm. Scale
bar, 1 µm.
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Fig. 3. Electron micrographs of type A cells from hypothyroid rat Harderian gland
(HG). (A) Heterogeneous vacuoles almost devoid of secretory products can be
seen throughout the cytoplasm. Scale bar, 5.4 µm. (B) Vacuolisations
(arrows) are evident in the mitochondria, which are condensed. V, secretory
vacuoles. Scale bar, 1.6 µm.
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Fig. 4. Electron micrographs of type A cells from hypothyroid rat Harderian gland
(HG). (A) Autophagic vacuoles (asterisks) can be seen close to smooth
endoplasmic reticulum (arrow). Arrowheads indicate glycogen granules; m,
mitochondria. Scale bar, 1.2 µm. (B) A cytoplasmic vacuole showing the
characteristic lamellar substructures (arrows). (C) A secretory vacuole
showing concentric systems of lamellae. Scale bars, 1 µm.
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Fig. 5. Electron micrographs of type B cells from rat Harderian gland (HG). (A)
Type B cells from euthyroid rat HG are characterised by cytoplasmic
electron-translucent vacuoles and a basal nucleus (N). Numerous mitochondria
(arrows) are observed throughout the cytoplasm. (B) Type B cells from
hypothyroid rat HG have a dark nucleus (N) with peripheral condensation of
chromatin and a few cytoplasmic vacuoles. Loose smooth endoplasmic reticulum
(SER), as well as numerous mitochondria (arrows), can be observed throughout
the cytoplasm. Scale bars, 5.4 µm.
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Fig. 6. Electron micrographs of hypothyroid rat Harderian gland (HG). (A) Type A
cells have pycnotic nuclei (N) and heterogeneous secretory vacuoles throughout
the cytoplasm. Coalescence of secretory vacuoles (arrow) can be seen. Scale
bar, 5.4 µm. (B) Type A cells have a basal pycnotic nucleus and a few
secretory vacuoles (V) throughout the amorphous cytoplasm. Arrows indicate
mitochondria. Scale bar, 4 µm.
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Fig. 7. TUNEL reaction in rat Harderian gland (HG). (A) Fluorescein-labelled nuclei
(arrows) are observed in hypothyroid rat HG. (B) No fluorescence is present in
the nuclei of euthyroid rat HG. Scale bars, 16 µm.
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Fig. 8. Western blot detection of cytochrome c protein in mitochondrial
and cytosolic fractions of euthyroid and hypothyroid rat Harderian gland (HG).
In the euthyroid HG, the intensity of the cytochrome c band (14 kDa)
in the mitochondrial pellet was significantly (P<0.01) higher than
that in cytosolic fraction. Conversely, in hypothyroid HG, the cytochrome c
band was significantly more intense (P<0.01) in the cytosolic
fraction than in the mitochondrial pellet. Each mitochondrial and cytosolic
preparations contained three glands from three different rats. C, cytosolic
fraction; M, mitochondrial pellet.
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© The Company of Biologists Ltd 2008
