Publication: The permeability of capillaries among the small granule-containing cells in rat superior cervical ganglia, an ultrastructural lanthanum tracer study
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Date
1991
Authors
Yat-Pang Chau ; Chung-Liang Chien ; Kuo-Shyan Lu
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Publisher
Murcia : F. Hernández
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DOI
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info:eu-repo/semantics/article
Description
Abstract
The permeability of blood capillaries
associated with small granule-containing (SGC) cells
in rat superior cervical ganglia was investigated at
ultrastructural level by employing ionic lanthanum as
an electron dense tracer. In rat superior cervical ganglia,
the majority of blood capillaries were nonfenestrated.
Both fenestrated and nonfenestrated capillaries were
observed in the area associated with SGC cells.
Lanthanum tracer was observed in the lumina1 surface,
the interendothelial cleft and the subendothelial
perivascular spaces of both fenestrated and
nonfenestrated capillaries associated with SGC
cells. The external lamina of the Schwann cell which
surrounded the neurons, nerve fibres and SGC cells
were clearly delineated by the lanthanum tracer.
Furthermore, the perineuronal space, the periaxonal
space, and the pericellular space of the SGC cells were
readily accessible to the lanthanum ion. The results
demonstrated an absence of blood-nerve barrier, bloodganglionic
and blood-SGC cell barrier to the lanthanum
ion in the parenchyma1 area of the SGC cells in rat
superior cervical ganglia. It is proposed that lanthanum
may pass through the endothelial cells via 1) the
fenestrae of fenestrated capillaries, 2) the intercellular
junctions of both fenestrated and nonfenestrated
capillaries, i.e., a paracellular pathway; and 3) the
process of endocytosislexocytosis, i.e., a transcellular
pathway. to reach the subendothelial space and be
distributed in the parenchyma of SGC cells in rat
superior cervical ganglia.
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