TY - JOUR
T1 - Dynamic changes in ovarian c? kit and Steel expression during the estrous reproductive cycle
AU - Motro, B.
AU - Bernstein, Alan
PY - 1993
Y1 - 1993
N2 - Wand Steel mutant mice exhibit
similar developmental defects in melanogenesis,
haematopoiesis, and gametogenesis. Consistent
with the cell autonomous and microenvironmental
nature of W and SZ mutations, respectively, W
encodes the c-kit receptor tyrosine kinase while
Steel enclodes the Kit ligand. Both c-kit and Steel
are expressed in various cells in which no corresponding
mutant phenotype has yet been demonstrated.
In the adult ovary, certain stromal-derived
cells (theca and interstitial), as well as
oocytes, express c-kit, while granulosa cells express
Steel. We show here that the cessation of
oocyte growth, at the transition of the follicle to
the antral stage, is associated with the cessation of
Steel expression in the cumulus granulosa cells in
the vicinity of the oocyte. These observations suggest
a role for the Kit signaling pathway in oocyte
growth or in meiotic arrest. In addition, the cyclic
secretion of luteinizing hormone immediately and
dramatically results in elevated Steel expression
in mural granulosa cells and decreased levels of
c-kit transcripts in stromal-derived cells. This influence
of the estrous reproductive cycle on c-kit/
Steel expression suggests that the Kit signaling
pathway, in addition to its previously described
role in primordial germ cell development, is involved
in follicular development in the adult
female
AB - Wand Steel mutant mice exhibit
similar developmental defects in melanogenesis,
haematopoiesis, and gametogenesis. Consistent
with the cell autonomous and microenvironmental
nature of W and SZ mutations, respectively, W
encodes the c-kit receptor tyrosine kinase while
Steel enclodes the Kit ligand. Both c-kit and Steel
are expressed in various cells in which no corresponding
mutant phenotype has yet been demonstrated.
In the adult ovary, certain stromal-derived
cells (theca and interstitial), as well as
oocytes, express c-kit, while granulosa cells express
Steel. We show here that the cessation of
oocyte growth, at the transition of the follicle to
the antral stage, is associated with the cessation of
Steel expression in the cumulus granulosa cells in
the vicinity of the oocyte. These observations suggest
a role for the Kit signaling pathway in oocyte
growth or in meiotic arrest. In addition, the cyclic
secretion of luteinizing hormone immediately and
dramatically results in elevated Steel expression
in mural granulosa cells and decreased levels of
c-kit transcripts in stromal-derived cells. This influence
of the estrous reproductive cycle on c-kit/
Steel expression suggests that the Kit signaling
pathway, in addition to its previously described
role in primordial germ cell development, is involved
in follicular development in the adult
female
UR - https://scholar.google.co.il/scholar?q=Dynamic+changes+of+ovarian+c-kit+and+steel+expression+during+the+estrous+reproductive+cycle&btnG=&hl=en&as_sdt=0%2C5
M3 - Article
SN - 1058-8388
VL - 197
SP - 63
EP - 79
JO - Developmental Dynamics
JF - Developmental Dynamics
IS - 1
ER -