The cellular distribution of insulin-like growth factors I and II (IGF-I and -II) was examined in bovine corpora lutea at different stages of the luteal phase using specific antibodies and the avidin–biotin immunoperoxidase technique. At the cellular level, intense immunostaining for IGF-I was exclusively observed in large and small luteal cells and in a limited number of endothelial cells. Positive IGF-I immunoreactivity in luteal cells was thereby distributed in a distinct topographical, lobule-specific manner. Immunoreactivity in central areas of luteal lobules was most abundant in large luteal cells, whereas in peripheral zones significantly (P < 0.05) more small luteal cells exhibited IGF-I immunoreactivity. This distribution pattern was evident from day 4 of the cycle onwards and occurred at all the stages investigated. The percentage of positive small (SLC) and large (LLC) luteal cells revealed by semiquantitative analysis depended on the stage of the cycle as follows: days 4–7: 34% LLC versus 21.3% SLC in central areas and 25.1% LLC versus 32.7% SLC in peripheral zones; days 8–12: 42.9% LLC versus 19.9% SLC in central areas and 23.5% LLC versus 35.2% SLC in peripheral zones; days 13–16: 47.7% LLC versus 19.4% SLC in central areas and 19.2% LLC versus 41.4% SLC in peripheral zones. In contrast to IGF-I, no expression of IGF-II immunoreactivity was seen in large or small luteal cells. Positive immunoreactivity was restricted to the perivascular fibroblasts of large blood vessels and to the pericytes of capillaries. Fibroblasts, which are located in the fine interlobular connective tissue, also exhibited strong immunoreactivity for IGF-II, whereas endothelial cells were not stained. Semiquantitative evaluation was not possible owing to the low number of positive cells compared with the total number of cells. The restriction of strong IGF-II immunoreactivity to the pericytes of capillaries and to the perivascular fibroblasts of arterioles and venules supports the hypothesis that IGF-II acts as an autocrine growth factor, affecting the proliferation and differentiation of these cells.
Reproduction is committed to supporting researchers in demonstrating the impact of their articles published in the journal.
The two types of article metrics we measure are (i) more traditional full-text views and pdf downloads, and (ii) Altmetric data, which shows the wider impact of articles in a range of non-traditional sources, such as social media.
More information is on the Reasons to publish page.
Sept 2018 onwards | Past Year | Past 30 Days | |
---|---|---|---|
Full Text Views | 381 | 268 | 18 |
PDF Downloads | 101 | 42 | 5 |