Functional Heterodimerization of Prolactin and Growth Hormone Receptors by Ovine Placental Lactogen

Jeanne Grosclaude,Christophe Bignon,Arieh Gertler,Jean Djiane,Nathalie Daniel,Asael Herman

doi:10.1074/jbc.275.9.6295

Jeanne Grosclaude, Christophe Bignon + Show 4 more

Open Access

https://doi.org/10.1074/jbc.275.9.6295

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Abstract

Although homo- or heterodimerization are common mechanisms for activation of cytokine receptors, cross-talk between two distinct receptors in this superfamily has been never shown. Here we show a physiologically relevant example indicating that such an interaction does occurs, thus raising the hypothesis that heterodimerization between distinct cytokine receptors may be a novel mechanism contributing to the diversity of cytokine signaling. These findings were documented using both surface plasmon resonance and gel filtration experiments and show that ovine placental lactogen (PL) heterodimerizes the extracellular domains (ECDs) of ruminant growth hormone receptor (GHR) and prolactin receptor (PRLR). We also show that PL or PL analogues that exhibit little or no activity in cells transfected with PRLRs and no activity in cells transfected with ovine GHRs exhibit largely enhanced activity in cells cotransfected with both PRLRs and GHRs. Furthermore, chimeric receptors consisting of cytosolic and transmembrane part of ovine GHR or ovine PRLR and ECDs of human granulocyte-macrophage colony-stimulating factor receptor (GM-CSFR) alpha or beta were constructed. Upon transfection into Chinese hamster ovary cells along with reporter luciferase gene and stimulation by GM-CSF, a significant increase in luciferase activity occurred when GM-CSFR-alpha-PRLR and GM-CSFR-beta-GHR or GM-CSFR-alpha-GHR and GM-CSRR-beta-PRLR were cotransfected. In conclusion, we show that ovine PL is capable of functional heterodimerization of GHR and PRLR and that when their cytosolic parts, coupled to the ECD of GM-CSF receptors, are heterodimerized by GM-CSF, they are capable of transducing biological signal.

Highlights

Placentas of primates, rodents, and ruminants secrete one or more polypeptide hormones referred to as placental lactogen (PLs)1 or chorionic somatotropic hormones
Interaction of oPL with or growth hormone (oGHR)-extracellular domains (ECDs) and bPRLR-ECD—Recombinant bPRLR-ECD was chosen because this protein is almost identical (94.5% identity and 96% similarity) to oPRLR
The interaction of oPL with bPRLR-ECD and oGHR-ECD was studied by two independent methods, namely, gel filtration and SPR in a Biacore apparatus

Summary

Heterodimerization of GH and PRL Receptors

Experiments executed in homologous mammary gland explants or acini cultures documented that oPL mimics the action of oPRL [9]. We proposed that the difference between heterologous and homologous systems originates from the fact that in the latter, ruminant PLs antagonize the activity of oGH because they do not homodimerize oGHRs, whereas in the former they do and act as agonists In view of these findings, we speculated that ruminant PLs may initiate their signaling in four possible ways: (a) transducing the signal through homologous PRLRs; (b) heterodimerizing homologous GHR through site 1 and PRLR through site 2; (c) activating a unique as yet unidentified PLR; and (d) activating an as yet unknown variant of GHR, mutated in its ECD such that dimerization of GHR is allowed [22]. The present work clearly documents the feasibility of the second possibility

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION