The role of prolactin/vasoinhibins in cardiovascular diseases.

Prolactin (PRL) is a polypeptide hormone that is mainly synthesized and secreted by the lactotroph cells of the pituitary. There are two main isoforms of PRL: 23-kDa PRL (named full-length PRL) and vasoinhibins (including 5.6-18 kDa fragments). Both act as circulating hormones and cytokines to stimulate or inhibit vascular formation at different stages and neovascularization, including endothelial cell proliferation and migration, protease production, and apoptosis. However, their effects on vascular function and cardiovascular diseases are different or even contrary. In addition to the structure, secretion regulation, and signal transduction of PRL/vasoinhibins, this review focuses on the pathological mechanism and clinical significance of PRL/vasoinhibins in cardiovascular diseases.

Basis and Design of a Randomized Clinical Trial to Evaluate the Effect of Levosulpiride on Retinal Alterations in Patients With Diabetic Retinopathy and Diabetic Macular Edema.

BACKGROUND: Diabetic retinopathy (DR) and diabetic macular edema (DME) are potentially blinding, microvascular retinal diseases in people with diabetes mellitus. Preclinical studies support a protective role of the hormone prolactin (PRL) due to its ocular incorporation and conversion to vasoinhibins, a family of PRL fragments that inhibit ischemia-induced retinal angiogenesis and diabetes-derived retinal vasopermeability. Here, we describe the protocol of an ongoing clinical trial investigating a new therapy for DR and DME based on elevating the circulating levels of PRL with the prokinetic, dopamine D2 receptor blocker, levosulpiride. METHODS: It is a prospective, randomized, double-blind, placebo-controlled trial enrolling male and female patients with type 2 diabetes having DME, non-proliferative DR (NPDR), proliferative DR (PDR) requiring vitrectomy, and DME plus standard intravitreal therapy with the antiangiogenic agent, ranibizumab. Patients are randomized to receive placebo (lactose pill, orally TID) or levosulpiride (75 mg/day orally TID) for 8 weeks (DME and NPDR), 1 week (the period before vitrectomy in PDR), or 12 weeks (DME plus ranibizumab). In all cases the study medication is taken on top of standard therapy for diabetes, blood pressure control, or other medical conditions. Primary endpoints in groups 1 and 2 (DME: placebo and levosulpiride), groups 3 and 4 (NPDR: placebo and levosulpiride), and groups 7 and 8 (DME plus ranibizumab: placebo and levosulpiride) are changes from baseline in visual acuity, retinal thickness assessed by optical coherence tomography, and retinal microvascular abnormalities evaluated by fundus biomicroscopy and fluorescein angiography. Changes in serum PRL levels and of PRL and vasoinhibins levels in the vitreous between groups 5 and 6 (PDR undergoing vitrectomy: placebo and levosulpiride) serve as proof of principle that PRL enters the eye to counteract disease progression. Secondary endpoints are changes during the follow-up of health and metabolic parameters (blood pressure, glycated hemoglobin, and serum levels of glucose and creatinine). A total of 120 patients are being recruited. DISCUSSION: This trial will provide important knowledge on the potential benefits and safety of elevating circulating and intraocular PRL levels with levosulpiride in patients with DR and DME. ETHICS AND DISSEMINATION: Ethics approval has been obtained from the Ethics Committees of the National University of Mexico (UNAM) and the Instituto Mexicano de Oftalmología, I.A.P. Dissemination will include submission to peer-reviewed scientific journals and presentation at congresses. CLINICAL TRIAL REGISTRATION: Registered at www.ClinicalTrials.gov, ID: NCT03161652 on May 18, 2017.

16 kDa vasoinhibin binds to integrin alpha5 beta1 on endothelial cells to induce apoptosis.

Many functions of vasoinhibins have been reported, but its receptor has not been clarified yet. Vasoinhibins, 11-18 kDa N-terminal fragments of prolactin, have anti-angiogenic activity and act on endothelial cells to induce apoptosis and to inhibit migration and proliferation, which are opposite to the effects of prolactin. Although vasoinhibins bind to the prolactin receptor, its binding activity is very weak compared to prolactin. Therefore, in this study, we evaluated the binding activity between 16 kDa vasoinhibin and integrin beta1, alpha5 beta1, alpha1 beta1 and alphaV beta3 to identify a specific receptor for vasoinhibins. Moreover, we examined whether 16 kDa vasoinhibin induced apoptosis through integrin beta1 and alpha5 beta1 in endothelial cells. In this study, binding assays and co-immunoprecipitation experiments demonstrated that 16 kDa vasoinhibin could bind strongly to integrin beta1 and alpha5 beta1. Moreover, neutralizing with integrin beta1 and alpha5 beta1 antibody could inhibit 16 kDa vasoinhibin-induced apoptosis in endothelial cells. These findings suggest that vasoinhibins can act on endothelial cells through integrin alpha5 beta1 to induce apoptosis.

Vasoinhibin Suppresses the Neurotrophic Effects of VEGF and NGF in Newborn Rat Primary Sensory Neurons.

BACKGROUND/AIMS: Studies on the biological actions of vasoinhibins have focused mainly on endothelial cells. However, there is incipient knowledge about how vasoinhibins affect the nervous system, even if the target cells and mechanisms of action involved in these effects are unknown. METHODS: In order to determine if neurons are direct targets of vasoinhibins, we examined cellular outcomes and the intracellular pathways involved in the neuronal actions of vasoinhibins using newborn rat dorsal root ganglion (DRG) neurons as a model system. RESULTS: Vascular endothelial growth factor (VEGF) or nerve growth factor (NGF) treatment for 48 h resulted in neurite outgrowth stimulation in both DRG cultured explants and isolated primary sensory neurons. Interestingly, a recombinant vasoinhibin containing the first 123 amino acids of human prolactin antagonized the VEGF- and NGF-induced stimulation of neurite outgrowth. Vasoinhibin significantly reduced the density of neurites in DRG explants and obliterated neuritogenesis in isolated DRG neurons in primary culture, supporting a direct neuronal effect of vasoinhibin. In cultures of isolated DRG cells, virtually all ß3-tubulin-labeled cells express TrkA, and the majority of these cells also express VEGFR2. Short-term VEGF or NGF treatment of DRG explants resulted in increased ERK1/2 and AKT phosphorylation, whereas incubation of DRG with the combination of either VEGF or NGF together with vasoinhibin resulted in blunted VEGF- or NGF-induced phosphorylation of both ERK1/2 and AKT. CONCLUSION: Our results show that primary sensory neurons are direct targets of vasoinhibin, and suggest that vasoinhibin inhibition of neurite outgrowth involves the disruption of ERK and AKT phosphorylation cascades.

Human Prolactin Point Mutations and Their Projected Effect on Vasoinhibin Generation and Vasoinhibin-Related Diseases.

BACKGROUND: A dysregulation of the generation of vasoinhibin hormones by proteolytic cleavage of prolactin (PRL) has been brought into context with diabetic retinopathy, retinopathy of prematurity, preeclampsia, pregnancy-induced hypertension, and peripartum cardiomyopathy. Factors governing vasoinhibin generation are incompletely characterized, and the composition of vasoinhibin isoforms in human tissues or compartments, such as the circulation, is unknown. The aim of this study was to determine the possible contribution of PRL point mutations to the generation of vasoinhibins as well as to project their role in vasoinhibin-related diseases. METHODS: Prolactin sequences, point mutations, and substrate specificity information about the PRL cleaving enzymes cathepsin D, matrix metalloproteinases 8 and 13, and bone-morphogenetic protein 1 were retrieved from public databases. The consequences of point mutations in regard to their possible effect on vasoinhibin levels were projected on the basis of a score indicating the suitability of a particular sequence for enzymatic cleavage that result in vasoinhibin generation. The relative abundance and type of vasoinhibin isoforms were estimated by comparing the relative cleavage efficiency of vasoinhibin-generating enzymes. RESULTS: Six point mutations leading to amino acid substitutions in vasoinhibin-generating cleavage sites were found and projected to either facilitate or inhibit vasoinhibin generation. Four mutations affecting vasoinhibin generation in cancer tissues were found. The most likely composition of the relative abundance of vasoinhibin isoforms is projected to be 15 > 17.2 > 16.8 > 17.7 > 18 kDa vasoinhibin. CONCLUSION: Prolactin point mutations are likely to influence vasoinhibin levels by affecting the proteolysis efficiency of vasoinhibin-generating enzymes and should be monitored in patients with vasoinhibin-related diseases. Attempts to characterize vasoinhibin-related diseases should include the 15, 17.2, 16.8, 17.7, and 18 kDa vasoinhibin isoforms.

From Bench to Bedside: Translating the Prolactin/Vasoinhibin Axis.

The prolactin/vasoinhibin axis defines an endocrine system, in which prolactin (PRL) and vasoinhibins regulate blood vessel growth and function, the secretion of other hormones, inflammatory and immune processes, coagulation, and behavior. The core element of the PRL/vasoinhibin axis is the generation of vasoinhibins, which consists in the proteolytic cleavage of their precursor molecule PRL. Vasoinhibins can interact with multiple different partners to mediate their effects in various tissues and anatomical compartments, indicating their pleiotropic nature. Based on accumulating knowledge about the PRL/vasoinhibin axis, two clinical trials were initiated, in which vasoinhibin levels are the target of therapeutic interventions. One trial investigates the effect of levosulpiride, a selective dopamine D2-receptor antagonist, on retinal alterations in patients with diabetic macular edema and retinopathy. The rationale of this trial is that the levosulpiride-induced hyperprolactinemia resulting in increased retinal vasoinhibins could lead to beneficiary outcomes in terms of a vasoinhibin-mediated antagonization of diabetes-induced retinal alterations. Another trial investigated the effect of bromocriptine, a dopamine D2-receptor agonist, for the treatment of peripartum cardiomyopathy. The rationale of treatment with bromocriptine is the inhibition of vasoinhibin generation by substrate depletion to prevent detrimental effects on the myocardial microvascularization. The trial demonstrated that bromocriptine treatment was associated with a high rate of left ventricular recovery and low morbidity and mortality. Therapeutic interventions into the PRL/vasoinhibin axis bear the risk of side effects in the areas of blood coagulation, blood pressure, and alterations of the mental state.

Principles of the prolactin/vasoinhibin axis.

The hormonal family of vasoinhibins, which derive from the anterior pituitary hormone prolactin, are known for their inhibiting effects on blood vessel growth, vasopermeability, and vasodilation. As pleiotropic hormones, vasoinhibins act in multiple target organs and tissues. The generation, secretion, and regulation of vasoinhibins are embedded into the organizational principle of an axis, which integrates the hypothalamus, the pituitary, and the target tissue microenvironment. This axis is designated as the prolactin/vasoinhibin axis. Disturbances of the prolactin/vasoinhibin axis are associated with the pathogenesis of retinal and cardiac diseases and with diseases occurring during pregnancy. New phylogenetical, physiological, and clinical implications are discussed.

Vasoinhibins regulate the inner and outer blood-retinal barrier and limit retinal oxidative stress.

Vasoinhibins are prolactin fragments present in the retina, where they have been shown to prevent the hypervasopermeability associated with diabetes. Enhanced bradykinin (BK) production contributes to the increased transport through the blood-retina barrier (BRB) in diabetes. Here, we studied if vasoinhibins regulate BRB permeability by targeting the vascular endothelium and retinal pigment epithelium (RPE) components of this barrier. Intravitreal injection of BK in male rats increased BRB permeability. Vasoinhibins prevented this effect, as did the B2 receptor antagonist Hoe-140. BK induced a transient decrease in mouse retinal and brain capillary endothelial monolayer resistance that was blocked by vasoinhibins. Both vasoinhibins and the nitric oxide (NO) synthase inhibitor L-NAME, but not the antioxidant N-acetyl cysteine (NAC), blocked the transient decrease in bovine umbilical vein endothelial cell (BUVEC) monolayer resistance induced by BK; this block was reversed by the NO donor DETANONOate. Vasoinhibins also prevented the BK-induced actin cytoskeleton redistribution, as did L-NAME. BK transiently decreased human RPE (ARPE-19) cell monolayer resistance, and this effect was blocked by vasoinhibins, L-NAME, and NAC. DETANONOate reverted the blocking effect of vasoinhibins. Similar to BK, the radical initiator Luperox induced a reduction in ARPE-19 cell monolayer resistance, which was prevented by vasoinhibins. These effects on RPE resistance coincided with actin cytoskeleton redistribution. Intravitreal injection of vasoinhibins reduced the levels of reactive oxygen species (ROS) in retinas of streptozotocin-induced diabetic rats, particularly in the RPE and capillary-containing layers. Thus, vasoinhibins reduce BRB permeability by targeting both its main inner and outer components through NO- and ROS-dependent pathways, offering potential treatment strategies against diabetic retinopathies.

Prolactin-derived vasoinhibins increase anxiety- and depression-related behaviors.

The hormone prolactin (PRL) regulates neuroendocrine and emotional stress responses. It is found in the hypothalamus, where the protein is partially cleaved to vasoinhibins, a family of N-terminal antiangiogenic PRL fragments ranging from 14 to 18kDa molecular masses, with unknown effects on the stress response. Here, we show that the intracerebroventricular administration of a recombinant vasoinhibin, containing the first 123 amino acids of human PRL that correspond to a 14kDa PRL, exerts anxiogenic and depressive-like effects detected in the elevated plus-maze, the open field, and the forced swimming tests. To investigate whether stressor exposure affects the generation of vasoinhibins in the hypothalamus, the concentrations of PRL mRNA, PRL, and vasoinhibins were evaluated in hypothalamic extracts of virgin female rats immobilized for 30min at different time points after stress onset. The hypothalamic levels of PRL mRNA and protein were higher at 60min but declined at 360min to levels seen in non-stressed animals. The elevation of hypothalamic PRL did not correlate with the stress-induced increase in circulating PRL levels, nor was it modified by blocking adenohypophyseal PRL secretion with bromocriptine. A vasoinhibin having an electrophoretic migration rate corresponding to 17kDa was detected in the hypothalamus. Despite the elevation in hypothalamic PRL, the levels of this hypothalamic vasoinhibin were similar in stressed and non-stressed rats. Stress reduced the rate of cleavage of PRL to this vasoinhibin as shown by the incubation of recombinant PRL with hypothalamic extracts from stressed rats. These results suggest that vasoinhibins are potent anxiogenic and depressive factors and that stress increases PRL levels in the hypothalamus partly by reducing its conversion to vasoinhibins. The reciprocal interplay between PRL and vasoinhibins may represent an effective mechanism to regulate anxiety and depression.

Relación entre la prolactina y la retinopatía diabética / Relation between prolactin and diabetic retinopathy

La retinopatía diabética, como forma de microangiopatía, se caracteriza por la pérdida de los pericitos y de las células endoteliales, lo que conlleva a una alteración de la permeabilidad de los capilares retinianos. El factor de crecimiento del endotelio vascular estimula directamente el desarrollo de la vasculatura interna y externa del ojo, y actúa además como un factor de permeabilidad vascular. Por lo general, en condiciones naturales, existe un equilibrio entre las moléculas promotoras y las inhibidoras de la angiogénesis; sin embargo, cuando estas condiciones son alteradas, como sucede durante los episodios de hipoxia o inflamación, este equilibrio se rompe, e inclina la balanza hacia la formación de vasos anormales que se extienden y sangran dentro del vítreo, y pueden provocar el desprendimiento de la retina, con la consiguiente pérdida de la visión. Se han desarrollado algunos medicamentos antiangiogénicos que reducen la expresión del factor de crecimiento del endotelio vascular y del factor de crecimiento del tejido conectivo en las células del epitelio retiniano expuestas al estrés oxidativo. Se ha avanzado también en el desarrollo de otros medicamentos con acción antiangiogénica, con gran efectividad en su uso, solos o combinados con fotocoagulación láser y cirugía, pero son muy costosos, solo disponibles en centros muy especializados, y la vía de administración es intravítrea. En la actualidad se conoce que la hormona hipofisaria prolactina, puede prevenir la progresión y promover la regresión de la retinopatía diabética a través de su conversión proteolítica a vasoinhibinas, en particular, la fracción de menor...(AU)

Diabetic retinopathy, as a form of microangiopathy, is characterized by loss of pericytes and of endothelial cells, which causes alteration of the permeability of the retinal capillaries. The growth factor of the vascular endothelium directly stimulates the development of the internal and external vasculature of the eye, and additionally acts as a vascular permeability factor. In general, under natural conditions, there is a balance of promoting and inhibitory cells of angiogenesis. However, if these conditions are changed -as it happens during the hypoxia or inflammation episodes- this balance breaks and this tips the balance in favor of the formation of abnormal vessels that spread over and bleed into the vitreous, an event that may cause the retinal detachment and the resulting loss of vision. Some antiangiogenic drugs have been developed to reduce the expression of the vascular endothelium growth factor and of the connective tissue growth factor in the retinal epithelium cells under oxidative stress. Advances have also been made in the development of other antiangiogenic drugs of high effectiveness when they are used alone or combined with laser photocoagulation and surgery, but they are very expensive, available only in highly specialized centers and with intravitreal administration. Nowadays, it is known that hyphophysial hormone called prolactin can prevent the progress and encourage the regression of diabetic retinopathy through its proteolytic conversion to vasoinhibins, particularly, the lowest molecular weight fraction (16 kDa-prolactin). This fraction has an important antiangiogenic action since it blocks the stimulation of angiogenesis induced by several factors such as the vascular endothelium growth factor and the fibroblastic growth factor in the proliferation of the endothelial cells, all of which brings the possibilities of new drugs for the treatment of proliferative retinopathy. These are the aspects addressed in the present review(AU)

Relación entre la prolactina y la retinopatía diabética / Relation between prolactin and diabetic retinopathy

La retinopatía diabética, como forma de microangiopatía, se caracteriza por la pérdida de los pericitos y de las células endoteliales, lo que conlleva a una alteración de la permeabilidad de los capilares retinianos. El factor de crecimiento del endotelio vascular estimula directamente el desarrollo de la vasculatura interna y externa del ojo, y actúa además como un factor de permeabilidad vascular. Por lo general, en condiciones naturales, existe un equilibrio entre las moléculas promotoras y las inhibidoras de la angiogénesis; sin embargo, cuando estas condiciones son alteradas, como sucede durante los episodios de hipoxia o inflamación, este equilibrio se rompe, e inclina la balanza hacia la formación de vasos anormales que se extienden y sangran dentro del vítreo, y pueden provocar el desprendimiento de la retina, con la consiguiente pérdida de la visión. Se han desarrollado algunos medicamentos antiangiogénicos que reducen la expresión del factor de crecimiento del endotelio vascular y del factor de crecimiento del tejido conectivo en las células del epitelio retiniano expuestas al estrés oxidativo. Se ha avanzado también en el desarrollo de otros medicamentos con acción antiangiogénica, con gran efectividad en su uso, solos o combinados con fotocoagulación láser y cirugía, pero son muy costosos, solo disponibles en centros muy especializados, y la vía de administración es intravítrea. En la actualidad se conoce que la hormona hipofisaria prolactina, puede prevenir la progresión y promover la regresión de la retinopatía diabética a través de su conversión proteolítica a vasoinhibinas, en particular, la fracción de menor peso molecular (16 kDa-Prolactina), con importante acción antiangiogénica, bloqueando la estimulación de la angiogénesis inducida por varios factores, como el factor de crecimiento del endotelio vascular, y el factor de crecimiento fibroblástico en la proliferación de las células endoteliales, lo cual abre la esperanza de nuevos medicamentos para el tratamiento de la retinopatía proliferativa, aspectos sobre los que trata la presente revisión(AU)

Diabetic retinopathy, as a form of microangiopathy, is characterized by loss of pericytes and of endothelial cells, which causes alteration of the permeability of the retinal capillaries. The growth factor of the vascular endothelium directly stimulates the development of the internal and external vasculature of the eye, and additionally acts as a vascular permeability factor. In general, under natural conditions, there is a balance of promoting and inhibitory cells of angiogenesis. However, if these conditions are changed -as it happens during the hypoxia or inflammation episodes- this balance breaks and this tips the balance in favor of the formation of abnormal vessels that spread over and bleed into the vitreous, an event that may cause the retinal detachment and the resulting loss of vision. Some antiangiogenic drugs have been developed to reduce the expression of the vascular endothelium growth factor and of the connective tissue growth factor in the retinal epithelium cells under oxidative stress. Advances have also been made in the development of other antiangiogenic drugs of high effectiveness when they are used alone or combined with laser photocoagulation and surgery, but they are very expensive, available only in highly specialized centers and with intravitreal administration. Nowadays, it is known that hyphophysial hormone called prolactin can prevent the progress and encourage the regression of diabetic retinopathy through its proteolytic conversion to vasoinhibins, particularly, the lowest molecular weight fraction (16 kDa-prolactin). This fraction has an important antiangiogenic action since it blocks the stimulation of angiogenesis induced by several factors such as the vascular endothelium growth factor and the fibroblastic growth factor in the proliferation of the endothelial cells, all of which brings the possibilities of new drugs for the treatment of proliferative retinopathy. These are the aspects addressed in the present review(AU)

Regulation of Tumor Angiogenesis and Choroidal Neovascularization by Endogenous Angioinhibitors.

Angiogenesis is the process of neovascularization from parent blood vessels, which is a prerequisite for many physiological and pathological conditions and is regulated by a balance between endogenous angioinhibitors and angioactivators or angiogenic factors. Imbalance between angioinhibitors and angioactivators is associated with neovascularization capacity during progression of tumor development and Choroidal Neovascularization (CNV). Normalization of pathological angiogenesis is considered as an alternative strategy to prevent the tumor growth in cancer progression or retinal damage in CNV. Various angioinhibitors are being identified and evaluated for their pathological angiogenesis regulation, of which endogenous angioinhibitors are one class derived either from extra cellular matrix or from non-extra cellular matrix of human origin. Endogenous angioinhibitors are gaining much significance as they interact with proliferating endothelial cells by binding to distinct integrins and non-integrin receptors, regulating different intracellular signaling mechanisms leading to inhibition of choroidal neovascularization and tumor growth. This review will focus on endogenous angioinhibitors and their receptor(s) mediated angioinhibitory signaling, which are of major concern in angiogenesis and their clinical and pharmaceutical implications.

16 kDa prolactin reduces angiogenesis, but not growth of human breast cancer tumors in vivo.

Prolactin (PRL) is a peptide hormone necessary for normal growth and development of the human breast. In addition, high levels of PRL in plasma correlate with increased risk of breast cancer, especially among postmenopausal women. Several isoforms of PRL exist in human circulation, including a 16 kDa isoform that is an N-terminal fragment of the full-length 23 kDa PRL. 16 kDa PRL has been shown to be anti-angiogenic in vitro and in vivo, and to reduce formation of tumors from prostate, colon and melanoma cancer cell lines. Here we explore the effect of 16 kDa PRL expression in vitro and in vivo using two breast cancer cell line models (MCF-7 and MDA-MB-231) and also the HCT-116 colon cancer cell line. In all three cell lines, 16 kDa PRL expression inhibited cell proliferation in vitro compared to empty vector controls. In vivo results were markedly different between the two types of cell lines. HCT-116 cells expressing 16 kDa PRL exhibited reduced vascularization and tumor formation, consistent with published results. The breast cancer cell lines expressing 16 kDa PRL also exhibited inhibition of angiogenesis in vivo but no reduction in tumor size or formation. These results suggest that the effects of 16 kDa PRL on tumor formation may vary across tissue types. The unique sensitivity of breast cancer to PRL as a mitogen and/or additional factors in the mammary gland environment (e.g. local hormone/mitogen concentration) may play a dominant role in tumor formation in vivo, thus outweighing the anti-angiogenesis effects and in vitro reduction in cell proliferation induced by 16 kDa PRL.