HETEROGENEITY IN THE STORAGE OF GONADOTROPINS IN THE OVINE FETUS AND EVIDENCE FOR LUTEINIZING HORMONE-FOLLICLE-STIMULATING HORMONE CELLS INTHE FETAL PITUITARY
Lh. Messaoudtoumi et al., HETEROGENEITY IN THE STORAGE OF GONADOTROPINS IN THE OVINE FETUS AND EVIDENCE FOR LUTEINIZING HORMONE-FOLLICLE-STIMULATING HORMONE CELLS INTHE FETAL PITUITARY, Biology of reproduction, 48(6), 1993, pp. 1239-1245
In this immunocytochemical study, heterogeneity in the storage of gona
dotropins in the sheep fetus was investigated. LH cells were first det
ected at 50 days of gestation, whereas FSH and LH-FSH cells were obser
ved from Day 89 on; no gonadotropes containing ACTH were observed. LH
cell percentage increased for both sexes between 99 and 120 days of ge
station (from 2.8 +/- 0.1 to 4.0 +/- 0.3), remained high until term, a
nd did not change after birth. In males, FSH cell percentages increase
d about twofold between 120 and 130 days to 4.0 +/- 0.4, fell at 140 d
ays to 1.6 +/- 0.1, and then increased in the newborn lambs about twof
old. A similar pattern of development was observed in females, but the
percentages were lower than in males. LH-FSH cell percentages increas
ed about twofold in males between 99 and 120 days of gestation to 1.1
+/- 0.1, decreased to 0.8 +/- 0.1 at 140 days, then increased about tw
ofold in newborn lambs. In the 99-day-old females, this percentage was
0.5 +/- 0.1; it remained stable between 99 days of fetal life and ter
m and did not change after birth. Hence, the pattern of change in the
percentages of these cells appeared to be similar to that of LH cells
and different from that of FSH cells. This suggests that LH-FSH cells
might result from a shift of monohormonal cells to bihormonal cells. H
owever, these cells seem to be regulated differently in male and femal
e fetuses, and this suggests that they possess a specific role during
ontogeneis.