Jorge Aranda

In vivo release and gene upregulation of brain prolactin in response to physiological stimuli

Although prolactin (PRL) actions and expression in the brain have been shown, dynamic changes in its intracerebral release and gene expression have still not been demonstrated. Using push‐pull perfusion, the in vivo release of PRL was monitored within the paraventricular nucleus (PVN) and medial preoptic area (MPOA) of virgin female, lactating and male rats in response to various stimuli. Perfusion with a depolarizing medium (56 mm K+) increased local release of PRL within both the PVN (P < 0.05) and MPOA (P < 0.05) of urethane‐anaesthetized rats, indicating release from excitable neuronal structures. The PRL in perfusates was verified by radioimmunoassay, Nb2 cell bioassays and western blot. Systemic osmotic stimulation (3 m NaCl i.p., 8 mL/kg b.w.) raised PRL concentration in plasma (P < 0.01) but not within the PVN, suggesting independent release from the pituitary and in distinct brain regions. Immobilization for 30 min increased PRL release within the PVN (P < 0.05) and the MPOA (P < 0.01) of virgin female and male (P < 0.05 each) rats and increased hypothalamic PRL mRNA expression (P = 0.008) after 30 and 90 min as revealed by real‐time polymerase chain reaction. This indicates a stress‐induced activation of both PRL release from and synthesis in hypothalamic neurons. Additionally, PRL was significantly released within, but not outside, the PVN (P < 0.01) and the MPOA (P < 0.05) of lactating rats during suckling and this was accompanied by a significant increase of PRL mRNA (P < 0.05) in the hypothalamus 60 min after suckling. This is the first demonstration of stimulus‐induced, locally restricted release and gene upregulation of PRL within the brain, emphasizing the involvement of this ‘novel’ neuropeptide in various brain functions.

Vasoinhibins: endogenous regulators of angiogenesis and vascular function

Vasoinhibins are a family of peptides derived from prolactin, growth hormone and placental lactogen that act on endothelial cells to suppress vasodilation and angiogenesis and to promote apoptosis-mediated vascular regression. Some of the pathways by which vasoinhibins act have now been defined, and recent developments indicate that endogenous vasoinhibins exert tonic and essential actions on blood vessel growth, dilation and regression in vivo. By studying the pathways that can generate vasoinhibins, and the nature of their receptors and key biological mediators, it should be possible to clarify the role of vasoinhibins in controlling vascular function in health and disease.

Vasoinhibins prevent retinal vasopermeability associated with diabetic retinopathy in rats via protein phosphatase 2A–dependent eNOS inactivation

Increased retinal vasopermeability contributes to diabetic retinopathy, the leading cause of blindness in working-age adults. Despite clinical progress, effective therapy remains a major need. Vasoinhibins, a family of peptides derived from the protein hormone prolactin (and inclusive of the 16-kDa fragment of prolactin), antagonize the proangiogenic effects of VEGF, a primary mediator of retinal vasopermeability. Here, we demonstrate what we believe to be a novel function of vasoinhibins as inhibitors of the increased retinal vasopermeability associated with diabetic retinopathy. Vasoinhibins inhibited VEGF-induced vasopermeability in bovine aortic and rat retinal capillary endothelial cells in vitro. In vivo, vasoinhibins blocked retinal vasopermeability in diabetic rats and in response to intravitreous injection of VEGF or of vitreous from patients with diabetic retinopathy. Inhibition by vasoinhibins was similar to that achieved following immunodepletion of VEGF from human diabetic retinopathy vitreous or blockage of NO synthesis, suggesting that vasoinhibins inhibit VEGF-induced NOS activation. We further showed that vasoinhibins activate protein phosphatase 2A (PP2A), leading to eNOS dephosphorylation at Ser1179 and, thereby, eNOS inactivation. Moreover, intravitreous injection of okadaic acid, a PP2A inhibitor, blocked the vasoinhibin effect on endothelial cell permeability and retinal vasopermeability. These results suggest that vasoinhibins have the potential to be developed as new therapeutic agents to control the excessive retinal vasopermeability observed in diabetic retinopathy and other vasoproliferative retinopathies.

Elevated vasoinhibins may contribute to endothelial cell dysfunction and low birth weight in preeclampsia

Vasoconstriction and defective placental angiogenesis are key factors in the etiology of preeclampsia. Prolactin levels are elevated in maternal blood throughout pregnancy and the human decidua produces prolactin that is transported to the amniotic fluid. Prolactin is cleaved to yield vasoinhibins, a family of peptides that inhibit angiogenesis and nitric oxide-dependent vasodilation. Here, we conducted a case–control study to measure vasoinhibins in serum, urine, and amniotic fluid obtained from women with severe preeclampsia. We show that all three biological fluids contained significantly higher levels of vasoinhibins in preeclamptic women than in normal pregnant women. Amniotic fluid from preeclamptic women, but not from normal women, inhibited vascular endothelial growth factor-induced endothelial cell proliferation and nitric oxide synthase activity in cultured endothelial cells, and these actions were reversed by antibodies able to neutralize the effects of vasoinhibins. Furthermore, amniotic fluid does not appear to contain neutral prolactin-cleaving proteases, suggesting that vasoinhibins in amniotic fluid are derived from prolactin cleaved within the placenta. Also, cathepsin-D in placental trophoblasts cleaved prolactin to vasoinhibins, and its activity was higher in placental trophoblasts from preeclamptic women than from normal women. Importantly, birth weight of infants in preeclampsia inversely correlated with the extent to which the corresponding AF inhibited endothelial cell proliferation and with its concentration of prolactin+vasoinhibins. These data demonstrate that vasoinhibins are increased in the circulation, urine, and amniotic fluid of preeclamptic women and suggest that these peptides contribute to the endothelial cell dysfunction and compromised birth weight that characterize this disease.

Vasoinhibins: a family of N-terminal prolactin fragments that inhibit angiogenesis and vascular function.

Antiangiogenic molecules derived from prolactin (PRL) are not a single entity, but rather a family of peptides with different molecular masses, all containing the N-terminal region of PRL. Cleavage of PRL by cathepsin-D or by matrix metalloproteases generates N-terminal fragments that act on endothelial cells to suppress vasodilation and angiogenesis and promote vascular regression. N-terminal PRL fragments have been identified in cartilage and retina, where angiogenesis is highly restricted. In vivo experiments demonstrate that these PRL fragments exert a tonic and essential suppression of retinal blood vessel growth and dilation. Similar PRL fragments have been detected in the pituitary gland, a highly vascularized organ where the control of vascular growth may differ from that in tissues where angiogenesis is highly restricted. We have previously proposed the name vasoinhibins to describe the collection of N-terminal PRL fragments having blood vessel-blocking activity, and here we discuss their promise as factors to control vascular function in health and disease.

In vivo transcriptional targeting into the retinal vasculature using recombinant baculovirus carrying the human flt-1 promoter

BackgroundEndothelial cells are a target for gene therapy because they are implicated in a number of vascular diseases. Recombinant baculovirus have emerged as novel gene delivery vectors. However, there is no information available concerning the use of endothelial-specific promoters in the context of the baculovirus genome. In the present study, we have generated a recombinant baculovirus containing the human flt-1 promoter (BacFLT-GFP) driving the expression of the green fluorescent protein. Transcriptional gene targeting was analyzed in vitro in different mammalian cell lines and in vivo in adult rat retinal vasculature.ResultsBacFLT-GFP evoked the highest levels of expression in the endothelial cell line BUVEC-E6E7-1, similar to those reached by recombinant baculovirus carrying the CMV promoter (112% relative to BacCMV-GFP, n = 4). Interestingly, BacFLT-GFP directed high levels of expression in rat glioma C6 and in human glioblastoma CH235 cells (34.78% and 47.86% relative to BacCMV-GFP, respectively). Histone deacetylase inhibitors such as butyrate or trichostatin A enhanced the transcriptional activity of both BacCMV-GFP and BacFLT-GFP. Thus, in this study histone deacetylation appears to be a central mechanism for the silencing of baculovirus, independently of the promoter utilized. In vivo transcriptional targeting was demonstrated in adult rat retinal vasculature by intravitreal delivery of BacFLT-GFP and immunohistochemical staining with von Willebrand factor (vWF). Analysis by fluorescence microscopy and deconvolved three-dimensional confocal microscopy of retinal whole mounts obtained after 3 days of baculovirus injection showed that most GFP-expressing cells localized to the inner limiting membrane (ILM) and ganglion cell layer (GCL) and colocalize with vWF (70%, n = 10) in blood vessels, confirming the endothelial phenotype of the transduced cells.ConclusionTaken together, our results indicate that the restricted expression in endothelial cells mediated by the flt-1 promoter is not affected by the context of the baculovirus genome and demonstrate the potential of using recombinant baculovirus for transcriptional targeted gene expression into the eye vasculature.