First published online November 19, 2008
Journal of Cell Science 121, 2302e (2008)
© The Company of Biologists Limited
Follicle development feels the force
The early activation of ovarian follicles in the mouse has been closely characterised – the oocyte at the centre of the follicle grows and the granulosa cells (GCs) that enclose it become cuboidal and proliferate within the surrounding basal lamina, eventually forming multiple layers. Despite this knowledge, however, little has been understood about how these events are controlled. Now, Kate Hardy and colleagues (p. 3890) use histomorphometry to address the relationship between GC proliferation and oocyte growth. By labelling cells that express the cell-cycle marker Ki67, the authors first quantify the proliferation rate of GCs, which increases dramatically as they become cuboidal. They next show that GC proliferation can occur independently of oocyte growth. GCs on the basal lamina reach a maximal packing density as the second (inner) layer of GCs starts to appear; moreover, the inner layer forms because the basal GCs change their mitotic-spindle orientation and divide inwards. On the basis of these and other results, the authors propose a model in which the basal lamina (or surrounding cells) mechanically constrains the expansion of GCs, forcing the formation of additional cell layers. This study sheds light on the mechanism of ovarian-follicle activation.
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Related articles in JCS:
- Effect of cell shape and packing density on granulosa cell proliferation and formation of multiple layers during early follicle development in the ovary
- Patricia Da Silva-Buttkus, Gayani S. Jayasooriya, Jocelyn M. Mora, Margaret Mobberley, Timothy A. Ryder, Marianne Baithun, Jaroslav Stark, Stephen Franks, and Kate Hardy
JCS 2008 121: 3890-3900.
[Abstract]
[Full Text]
