Receptor-mediated transcytosis of follicle-stimulating hormone through the rat testicular microvasculature.

Accumulated data suggest that endothelial cells express specific receptors for several peptide and (glyco)protein hormones that may transport hormones across the cell to be delivered to the interstitial fluid and tissue target cells. Surprisingly, very little information is available on the actual endothelial organelles involved in this cellular process. In the present study the transfer of follicle-stimulating hormone (FSH) through the endothelial barrier of rat testes was examined by analysing the binding and transport of gold-tagged recombinant human (rh)FSH under various conditions using electron microscopy.

Mechanisms of progesterone receptor export from nuclei: role of nuclear localization signal, nuclear export signal, and ran guanosine triphosphate.

Steroid hormone receptors are, in most cases, mainly nuclear proteins that undergo a continuous nucleocytoplasmic shuttling. The mechanism of the nuclear export of these proteins remains largely unknown. To approach this problem experimentally in vivo, we have prepared cell lines permanently coexpressing the wild-type nuclear progesterone receptor (PR) and a cytoplasmic receptor mutant deleted of its nuclear localization signal (NLS) [(deltaNLS)PR].

The Ernst Schering Poster Award. Intracellular traffic of steroid hormone receptors.

The signal responsible for the nuclear localization of the progesterone receptor has been characterized. It is a complex signal. The study of the mechanism of this nuclear localization has revealed that the receptor continuously shuttles between nucleus and the cytoplasm.

Nuclear localization signals also mediate the outward movement of proteins from the nucleus.

Several nuclear proteins, including steroid hormone receptors, have been shown to shuttle continuously between the nucleus and the cytoplasm. The mechanism of entry of proteins into the nucleus is well documented, whereas the mechanism of their outward movement into the cytoplasm is not understood. We have grafted the nuclear localization signals of the progesterone receptor or the simian virus 40 large tumor antigen onto beta-galactosidase.

The progesterone receptor. Biological effects of progestins and antiprogestins.

The progesterone receptor displays the typical three-domains structure of the steroid-thyroid receptor family. The central domain contains two 'zinc finger' structures responsible for the specific recognition of the cognate DNA sequences. The carboxy-terminal domain contains the hormone and anti-hormone binding site.

Cytoplasmic-nuclear trafficking of progesterone receptor. In vivo study of the mechanism of action of antiprogestins.

The signal responsible for the nuclear localization of the progesterone receptor has been characterized. The study of the mechanism of this nuclear localization has revealed that the receptor continuously shuttles between the nucleus and the cytoplasm. The receptor diffuses into the cytoplasm and is constantly and actively transported back into the nucleus.

The cytoskeleton and the cellular traffic of the progesterone receptor.

Previous studies on glucocorticoid receptors have suggested the existence of interactions between the receptor and microtubule or actin networks. It was hypothesized that such interactions may contribute to the guidance of steroid hormone receptors towards the nucleus. We used a permanent L cell line expressing the delta 638-642 progesterone receptor.

Mechanisms of nuclear localization of the progesterone receptor.

Deletion mutants of the rabbit progesterone receptor were used to identify two major mechanisms of its nuclear localization. A putative signal sequence, homologous to that of the SV40 large T antigen, was localized around amino acids 638-642 and was shown to be constitutively active. When amino acids 638-642 were deleted, the receptor became cytoplasmic but could be shifted into the nucleus by the addition of hormone (or anti-hormone), it was almost fully active.

[Intracellular traffic of the progesterone receptor].

The nuclear localization of the progesterone receptor is mediated by two signal sequences: one is constitutive and lies in the hinge region (between the DNA and steroid binding domains), the other is hormone-dependent and is localized in the second zinc finger of the DNA binding domain. The use of various inhibitors of energy synthesis in cells expressing permanently or transiently the wild-type receptor or a receptor mutated within the nuclear localization signals, demonstrated that the nuclear residency of the receptor reflects a dynamic situation: the receptor diffusing into the cytoplasm and being constantly and actively transported back into the nucleus. The existence of this nucleo-cytoplasmic shuttle mechanism was confirmed by receptor transfer from one nucleus to the other in heterokaryons.

Nucleocytoplasmic shuttling of the progesterone receptor.

The nuclear localization of the progesterone receptor is mediated by two signal sequences: one is constitutive and lies in the hinge region (between the DNA and steroid binding domains), the other is hormone dependent and is localized in the second zinc finger of the DNA binding domain. The use of various inhibitors of energy synthesis in cells expressing permanently or transiently the wild-type receptor or a receptor mutated within the nuclear localization signals, demonstrated that the nuclear residency of the receptor reflects a dynamic situation: the receptor diffusing into the cytoplasm and being constantly and actively transported back into the nucleus. The existence of this nucleo-cytoplasmic shuttle mechanism was confirmed by receptor transfer from one nucleus to the other in heterokaryons.

Structural and functional studies of mammalian progesterone receptors.

During the past years there has been an improvement in our understanding of the molecular mechanism of action of the progesterone receptor (PR). This was due to the obtention of monoclonal antibodies against PR which allowed the first structural analyses and led to the cloning of the genes.

Mechanisms of nuclear localization of the progesterone receptor: evidence for interaction between monomers.

Deletion mutants of the rabbit progesterone receptor were used to identify two major mechanisms of its nuclear localization. A putative signal sequence, homologous to that of the SV40 large T antigen, was localized around amino acids 638-642 and shown to be constitutively active. When amino acids 638-642 were deleted, the receptor became cytoplasmic but could be shifted into the nucleus by the addition of hormone (or anti-hormone); it was almost fully active.