Although oxytocin has been recognized as a product of the corpus luteum in numerous species, including nonhuman primate and women, for sometime, its precise role in luteal physiology has remained obscure. However, with the recent observations that the steroidogenic activity of the large and small cells is increased in the presence of LH when these cells are in intimate contact has led to the hypothesis that cell-to-cell communication must occur between these cells. Cell-to-cell communication is possible via several mechanisms, including paracrine/autocrine and intercellular crosstalk via gap junctions. Substantial morphological and immunohistological evidence using antibodies to gap-junction specific proteins, the connexins, indicates the presence of gap junctions in corpora lutea. Our recent studies indicate that oxytocin affects the expression of the gap-junction protein connexin-43 and that the gonadotropins are intimately involved in this action. The synthesis of oxytocin and the oxytocin receptor is influenced by the gonadotropins and locally produced prostaglandins. Oxytocin stimulates estradiol synthesis, which may affect the expression of the gap-junction protein connexin-43, allowing interaction between the large cells and small cells of the corpus luteum. With the ubiquitous presence of oxytocin and its receptor, and the presence of gap junctions in the corpora lutea of numerous species, it is concluded that oxytocin is involved in not only paracrine/autocrine interaction but also may be of significant importance in intercellular crosstalk in the corpus luteum.