The Roles of Prolactin and Testosterone in the Development and Function of Granulosa Lutein Tissue in the Rat1

Keyes, P. Landis; Possley, R. M.; Brabec, R K

doi:10.1095/biolreprod37.3.699

Cited by 10 publications

(3 citation statements)

References 38 publications

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“…This luteotrophin maintains LH receptor numbers and the capacity of luteal cells to secrete estradiol. Prolactin (or prolactin-like compounds) is sufficient to maintain luteal function for 10 days after ovulation; however, later increases in luteal weight and progesterone secretion require both prolactin and intraluteal estradiol [56,131]. Thus, pregnancy-associated increases in luteal function in the rat are due to a synergistic action of prolactin-like luteotrophins and estradiol.…”

Section: Early Pregnancymentioning

confidence: 99%

Luteal Function: The Estrous Cycle and Early Pregnancy

Niswender

Juengel

McGuire

et al. 1994

Biology of Reproduction

152

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A number of morphological and biochemical changes occur as the cells of the recently ovulated follicle luteinize and develop into a functional CL. There are two distinct steroidogenic luteal cell types that appear to differentiate from thecal and granulosal cells in the follicle. The control of progesterone secretion is quite different in the two cell types. Prostaglandin F2 alpha (PGF2 alpha) is the primary luteolytic hormone in most mammals. PGF2 alpha appears to exert its antisteroidogenic actions via activation of the protein kinase C system, while its cytotoxic effects appear to be mediated via a dramatic increase in intracellular levels of free calcium. The mechanisms involved in maternal recognition of pregnancy are very diverse between species and may involve direct luteotropic stimulation of the CL, reduced uterine secretion of PGF2 alpha, and/or inhibition of actions of PGF2 alpha at the level of the CL.

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Section: Early Pregnancymentioning

confidence: 99%

Luteal Function: The Estrous Cycle and Early Pregnancy

Niswender

Juengel

McGuire

et al. 1994

Biology of Reproduction

152

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“…Activation of PKC Isoforms by PRL-During the second half of pregnancy, when we detect activated PKC ␦, the rat corpus luteum is maintained exclusively by the combined actions of intraluteal E 2 , aromatized from androgens provided by the placenta (1), and PRL-like hormones such as the placentaderived rPL-1 (1,20). We have found that rPL-1 treatment of luteinized granulosa cells promotes phosphorylation of Stat 3 on tyrosine 705 and serine 727 and induction of relaxin mRNA expression, 2 a major product of the rat corpus luteum in the second half of pregnancy (21).…”

Section: Pkc ␦ Autophosphorylation On Serine 662 Increases In Corporamentioning

confidence: 91%

“…The ␦ isoform can be distinguished from the other isoforms by the striking increase of both PKC ␦ mRNA and protein levels in corpora lutea in the second half of pregnancy (19). The rat corpus luteum is maintained in the second half of pregnancy by the combined actions of intraluteal E 2 and PRL-like hormones such as the placenta-derived rPL-1 (1,20). We have found that rPL-1 treatment of luteinized granulosa cells induces phosphorylation of Stat 3 on both tyrosine 705 and serine 727 and induction of relaxin mRNA expression, 2 a major product of the rat corpus luteum in the second half of pregnancy (21).…”

mentioning

confidence: 99%

Activation of PKC δ in the Rat Corpus Luteum during Pregnancy

Peters

Maizels

Hunzicker-Dunn

1999

Journal of Biological Chemistry

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Maintenance of pregnancy in the rat requires the corpus luteum. At a time when rat placental lactogens (rPLs) are required to support progesterone production by the corpus luteum and when relaxin expression is initiated, expression of a specific protein kinase C (PKC) isoform, PKC ␦, is dramatically increased. We therefore assessed whether prolactin (PRL) receptor activation promotes activation of PKC ␦ in a luteinized granulosa cell model. We also assessed the activation status of PKC ␦ in corpora lutea obtained when the corpus luteum is exposed to chronically high concentrations of rPLs. The activity of PKC ␦ was assessed by two means: an immune complex (IC) assay and Western blotting with a phospho-epitope-specific antibody that detects PKC ␦ phosphorylated on serine 662. PKC ␦ activation in the IC kinase assay was determined by the ability of immunoprecipitated PKC ␦ to phosphorylate the PKC ␦-preferential substrate small heat shock protein (HSP-27). Treatment of luteinized rat granulosa cells with phorbol myristate acetate, a known activator of PKC, promoted a 7-fold increase in HSP-27 phosphorylation by PKC ␦. Similarly, immunoreactivity with the phospho-epitopespecific PKC ␦ antibody was increased in extracts prepared from luteinized granulosa cells treated with phorbol myristate acetate or following in vitro activation of recombinant PKC ␦. Using these assays, we assessed whether PRL receptor agonists were capable of activating PKC ␦ in luteinized granulosa cells. PRL receptor agonists induced translocation PKC ␦ from the cytosolic to the Triton-soluble membrane fraction and increased PKC ␦ activity assessed by both IC kinase assay and Western blotting with phospho-epitope-specific PKC ␦ antibody. Analysis of PKC ␦ activity in corpora lutea obtained during pregnancy by both the IC kinase assay and Western blotting with the phospho-epitope-specific PKC ␦ antibody revealed that PKC ␦ activity was increased throughout the second half of pregnancy. These results demonstrate that PRL receptor activation promotes the acute activation of PKC ␦ in luteinized rat granulosa cells. At a time when the rat is exposed to chronically high concentrations of rPLs, PKC ␦ is increasingly expressed and active.The corpus luteum is a transient endocrine gland of the ovary formed following ovulation by the differentiation of granulosa and thecal cells (1). In the rat, the corpus luteum is the sole source of the progesterone that is necessary to maintain pregnancy to term and is thus necessary throughout pregnancy (1). It is therefore of great interest to assess the signal transduction pathways employed within the corpus luteum that are involved in the regulation of its function. PKC 1 is a family of serine/threonine kinases that has been implicated in the regulation of numerous signaling pathways (2, 3). The PKC family consists of 10 different isoforms that have been grouped into three categories based on the structural and functional differences among family members (4). Conventional isoforms ␣, ␤I, ␤II, and ␥ isoforms are ac...

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