TY - JOUR
T1 - Iodine deficiency induces a VEGF-dependent microvascular response in salivary glands and in the stomach
AU - Vanderstraeten, Jessica
AU - Derradji, Hanane
AU - Craps, Julie
AU - Sonveaux, Pierre
AU - Colin, Ides M.
AU - Many, Marie-Christine
AU - Gérard, Anne-Catherine
A2 - Baatout, Sarah
N1 - Score=10
PY - 2016/8/30
Y1 - 2016/8/30
N2 - Despite efforts to optimize iodine supply in iodine
deficient countries, iodine deficiency (ID)
remains a global problem worldwide. Activation of the
local microvasculature by ID in the thyroid gland aims at
improving the local supply of iodide. For this purpose,
the thyrocytes secrete vascular endothelial growth factor
(VEGF) that acts on adjacent capillaries, via a reactive
oxygen species (ROS)/Hypoxia Inducible factor (HIF)-
dependent pathway. Beside the thyroid, other organs
including salivary glands and the stomach do express the
sodium/iodide symporter (NIS) and are able to take
iodide up, potentially rendering them sensitive to ID. To
verify this hypothesis, ID-induced effects on the local
microvasculature were studied in salivary glands and in
the stomach. ID was induced by feeding young mice
with an iodide-deficient diet and NIS inhibitor
perchlorate in the drinking water. In salivary glands, ID
induced a transient increase in HIF-1α protein
expression accompanied by a transient, VEGFdependent
increase in blood flow. In the gastric mucosa,
ID transiently increased VEGF expression in the mucinsecreting
epithelium and in ghrelin-secreting endocrine
cells. These observations suggest that microvascular
changes in response to ID occur in NIS-expressing
tissues other than the thyroid. NIS expressing cells could be viewed as iodide sensors that respond to ID by
inducing vascular changes, probably to optimize iodide
bioavailability at regional or systemic levels.
AB - Despite efforts to optimize iodine supply in iodine
deficient countries, iodine deficiency (ID)
remains a global problem worldwide. Activation of the
local microvasculature by ID in the thyroid gland aims at
improving the local supply of iodide. For this purpose,
the thyrocytes secrete vascular endothelial growth factor
(VEGF) that acts on adjacent capillaries, via a reactive
oxygen species (ROS)/Hypoxia Inducible factor (HIF)-
dependent pathway. Beside the thyroid, other organs
including salivary glands and the stomach do express the
sodium/iodide symporter (NIS) and are able to take
iodide up, potentially rendering them sensitive to ID. To
verify this hypothesis, ID-induced effects on the local
microvasculature were studied in salivary glands and in
the stomach. ID was induced by feeding young mice
with an iodide-deficient diet and NIS inhibitor
perchlorate in the drinking water. In salivary glands, ID
induced a transient increase in HIF-1α protein
expression accompanied by a transient, VEGFdependent
increase in blood flow. In the gastric mucosa,
ID transiently increased VEGF expression in the mucinsecreting
epithelium and in ghrelin-secreting endocrine
cells. These observations suggest that microvascular
changes in response to ID occur in NIS-expressing
tissues other than the thyroid. NIS expressing cells could be viewed as iodide sensors that respond to ID by
inducing vascular changes, probably to optimize iodide
bioavailability at regional or systemic levels.
KW - Iodine deficiency
KW - Salivary glands
KW - Stomach
KW - Microvasculature
KW - VEGF
UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/19598155
M3 - Article
SN - 1699-5848
VL - 31
SP - 897
EP - 909
JO - Histology and Histopathology
JF - Histology and Histopathology
ER -