Requirements for efficient endosomal escape by designed mini-proteins.

ZF5.3 is a compact, rationally designed mini-protein that escapes efficiently from the endosomes of multiple cell types. Despite its small size (27 amino acids), ZF5.3 can be isolated intact from the cytosol of treated cells and guides multiple classes of proteins into the cytosol and/or nucleus. In the best cases, delivery efficiencies reach or exceed 50% to establish nuclear or cytosolic concentrations of 500 nM or higher. But other than the requirement for unfoldable cargo and an intact HOPS complex, there is little known about how ZF5.3 traverses the limiting endocytic membrane. Here we delineate the attributes of ZF5.3 that enable efficient endosomal escape. We confirm that ZF5.3 is stable at pH values between 5.5 and 7.5, with no evidence of unfolding even at temperatures as high as 95 °C. The high-resolution NMR structure of ZF5.3 at pH 5.5, also reported here, shows a canonical p zinc-finger fold with the penta-arg motif integrated seamlessly into the C-terminal α-helix. At lower pH, ZF5.3 unfolds cooperatively as judged by both circular dichroism and high-resolution NMR. Unfolding occurs upon protonation of a single Zn(II)-binding His side chain whose pKa corresponds almost exactly to that of the late endosomal lumen. pH-induced unfolding is essential for endosomal escape, as a ZF5.3 analog that remains folded at pH 4.5 fails to efficiently reach the cytosol, despite high overall uptake. Finally, using reconstituted liposomes, we identify a high-affinity interaction of ZF5.3 with a specific lipid-BMP-that is selectively enriched in the inner leaflet of late endosomal membranes. This interaction is 10-fold stronger at low pH than neutral pH, providing a molecular picture for why escape occurs preferentially and in a HOPS-dependent manner from late endosomal compartments. The requirements for programmed endosomal escape identified here should aid and inform the design of proteins, peptidomimetics, and other macromolecules that reach cytosolic or nuclear targets intact and at therapeutically relevant concentrations.

HOPS-Dependent Endosomal Escape Demands Protein Unfolding.

The inefficient translocation of proteins across biological membranes limits their application as potential therapeutics and research tools. In many cases, the translocation of a protein involves two discrete steps: uptake into the endocytic pathway and endosomal escape. Certain charged or amphiphilic molecules can achieve high protein uptake, but few are capable of efficient endosomal escape. One exception to this rule is ZF5.3, a mini-protein that exploits elements of the natural endosomal maturation machinery to translocate across endosomal membranes. Although some ZF5.3-protein conjugates are delivered efficiently to the cytosol or nucleus, overall delivery efficiency varies widely for different cargoes with no obvious design rules. Here we show that delivery efficiency depends on the ability of the cargo to unfold. Using fluorescence correlation spectroscopy, a single-molecule technique that precisely measures intracytosolic protein concentration, we show that regardless of size and pI, low-Tm cargoes of ZF5.3 (including intrinsically disordered domains) bias endosomal escape toward a high-efficiency pathway that requires the homotypic fusion and protein sorting (HOPS) complex. Small protein domains are delivered with moderate efficiency through the same HOPS portal, even if the Tm is high. These findings imply a novel pathway out of endosomes that is exploited by ZF5.3 and provide clear guidance for the selection or design of optimally deliverable therapeutic cargo.

Cannabinoid WIN55,212-2 reprograms monocytes and macrophages to inhibit LPS-induced inflammation.

Introduction: Chronic or uncontrolled activation of myeloid cells including monocytes, macrophages and dendritic cells (DCs) is a hallmark of immune-mediated inflammatory disorders. There is an urgent need for the development of novel drugs with the capacity to impair innate immune cell overactivation under inflammatory conditions. Compelling evidence pointed out cannabinoids as potential therapeutic tools with anti-inflammatory and immunomodulatory capacity. WIN55,212-2, a non-selective synthetic cannabinoid agonist, displays protective effects in several inflammatory conditions by mechanisms partially depending on the generation of tolerogenic DCs able to induce functional regulatory T cells (Tregs). However, its immunomodulatory capacity on other myeloid cells such as monocytes and macrophages remains incompletely understood. Methods: Human monocyte-derived DCs (hmoDCs) were differentiated in the absence (conventional hmoDCs) or presence of WIN55,212-2 (WIN-hmoDCs). Cells were stimulated with LPS, cocultured with naive T lymphocytes and their cytokine production and ability to induce T cell responses were analysed by ELISA or flow cytometry. To evaluate the effect of WIN55,212-2 in macrophage polarization, human and murine macrophages were activated with LPS or LPS/IFNγ, in the presence or absence of the cannabinoid. Cytokine, costimulatory molecules and inflammasome markers were assayed. Metabolic and chromatin immunoprecipitation assays were also performed. Finally, the protective capacity of WIN55,212-2 was studied in vivo in BALB/c mice after intraperitoneal injection with LPS. Results: We show for the first time that the differentiation of hmoDCs in the presence of WIN55,212-2 generates tolerogenic WIN-hmoDCs that are less responsive to LPS stimulation and able to prime Tregs. WIN55,212-2 also impairs the pro-inflammatory polarization of human macrophages by inhibiting cytokine production, inflammasome activation and rescuing macrophages from pyroptotic cell death. Mechanistically, WIN55,212-2 induced a metabolic and epigenetic shift in macrophages by decreasing LPS-induced mTORC1 signaling, commitment to glycolysis and active histone marks in pro-inflammatory cytokine promoters. We confirmed these data in ex vivo LPS-stimulated peritoneal macrophages (PMΦs), which were also supported by the in vivo anti-inflammatory capacity of WIN55,212-2 in a LPS-induced sepsis mouse model. Conclusion: Overall, we shed light into the molecular mechanisms by which cannabinoids exert anti-inflammatory properties in myeloid cells, which might well contribute to the future rational design of novel therapeutic strategies for inflammatory disorders.

Modelo de enfermería: Resignificación / Nursing Model: Resignification

El individuo, en la actualidad, representa una gran responsabilidad para el profesional de enfermería, dada la atención integral y transpersonal que requiere, entendiendo los códigos de creencia que lo limitan para llegar a la autorrealización; pretendiendo establecer en el individuo estándares de salud y de autocuidado, no aplicando para todos los grupos de desarrollo del individuo, ya que cada uno cuenta con una percepción diferente del universo llamada cosmovisión. Estas interpretaciones gestan diferentes arquetipos colectivos que se adquieren en el proceso de enculturación. Para el modelo de resignificación, la relación del individuo, cultura y arquetipos colectivos, son de suma importancia para establecer la autogestión del cuidado, donde el individuo desarrolla sus propias habilidades, destrezas y herramientas para establecer un equilibrio en el medio interno (pensamientos) y el medio externo (conductas), considerando cuatro áreas de desarrollo: biológica, psicológica, social y la que se busca desarrollar, la parte espiritual, llevándolo a la autorrealización.

The individual, nowadays, represents a great responsibility for the nursing professional, given the comprehensive and transpersonal care that he requires, understanding the codes of belief that limit him to reach self-realization; pretending to establish standards of health and self-care in the individual, not applying to all groups of development of the individual, since each one has a different perception of the universe called Worldview. These interpretations generate different collective archetypes that are acquired in the process of enculturation. For the model of resignification, the relationship of the individual, culture and collective archetypes, are of the utmost importance to establish the care self-management, where the individual develops their own abilities, skills and tools to establish a balance in the internal environment (thoughts) and the external environment (behaviors), considering four areas of development: biological, psychological, social and the one that is sought develop, the spiritual part, leading to self-realization.

Cannabinoid WIN55212-2 impairs peanut-allergic sensitization and promotes the generation of allergen-specific regulatory T cells.

BACKGROUND: Cannabinoids are lipid-derived mediators with anti-inflammatory properties in different diseases. WIN55212-2, a non-selective synthetic cannabinoid, reduces immediate anaphylactic reactions in a mouse model of peanut allergy, but its capacity to prevent peanut-allergic sensitization and the underlying mechanisms remains largely unknown. OBJECTIVE: To investigate the capacity of WIN55212-2 to immunomodulate peanut-stimulated human dendritic cells (DCs) and peanut-allergic sensitization in mice. METHODS: Surface markers and cytokines were quantified by flow cytometry, ELISA and qPCR in human monocyte-derived DCs (hmoDCs) and T-cell cocultures after stimulation with peanut alone or in the presence of WIN55212-2. Mice were epicutaneously sensitized with peanut alone or peanut/WIN55212-2. After peanut challenge, drop in body temperature, haematocrit, clinical symptoms, peanut-specific antibodies in serum and FOXP3+ regulatory (Treg) cells in spleen and lymph nodes were quantified. Splenocytes were stimulated in vitro with peanut to analyse allergen-specific T-cell responses. RESULTS: WIN55212-2 reduced peanut-induced hmoDC activation and promoted the generation of CD4+ CD127- CD25+ FOXP3+ Treg cells, while reducing the induction of IL-5-producing T cells. In vivo, WIN55212-2 impaired the peanut-induced migration of DCs to lymph nodes and their maturation. WIN55212-2 significantly reduced the induction of peanut-specific IgE and IgG1 antibodies in serum during epicutaneous peanut sensitization, reduced the clinical symptoms score upon peanut challenge and promoted the generation of allergen-specific FOXP3+ Treg cells. CONCLUSIONS: The synthetic cannabinoid WIN55212-2 interferes with peanut sensitization and promotes tolerogenic responses, which might well pave the way for the development of novel prophylactic and therapeutic strategies for peanut allergy.

Exploring Serum Transferrin Regulation of Nonferric Metal Therapeutic Function and Toxicity.

Serum transferrin (sTf) plays a pivotal role in regulating iron biodistribution and homeostasis within the body. The molecular details of sTf Fe(III) binding blood transport, and cellular delivery through transferrin receptor-mediated endocytosis are generally well-understood. Emerging interest exists in exploring sTf complexation of nonferric metals as it facilitates the therapeutic potential and toxicity of several of them. This review explores recent X-ray structural and physiologically relevant metal speciation studies to understand how sTf partakes in the bioactivity of key non-redox active hard Lewis acidic metals. It challenges preconceived notions of sTf structure function correlations that were based exclusively on the Fe(III) model by revealing distinct coordination modalities that nonferric metal ions can adopt and different modes of binding to metal-free and Fe(III)-bound sTf that can directly influence how they enter into cells and, ultimately, how they may impact human health. This knowledge informs on biomedical strategies to engineer sTf as a delivery vehicle for metal-based diagnostic and therapeutic agents in the cancer field. It is the intention of this work to open new avenues for characterizing the functionality and medical utility of nonferric-bound sTf and to expand the significance of this protein in the context of bioinorganic chemistry.

Expanding the Therapeutic Potential of the Iron Chelator Deferasirox in the Development of Aqueous Stable Ti(IV) Anticancer Complexes.

The recent X-ray structure of titanium(IV)-bound human serum transferrin (STf) exhibiting citrate as a synergistic anion reveals a difference in Ti(IV) coordination versus iron(III), the metal endogenously delivered by the protein to cells. This finding enriches our bioinspired drug design strategy for Ti(IV)-based anticancer therapeutics, which applies a family of Fe(III) chelators termed chemical transferrin mimetic (cTfm) ligands to inhibit Fe bioavailability in cancer cells. Deferasirox, a drug used for iron overload disease, is a cTfm ligand that models STf coordination to Fe(III), favoring Fe(III) binding versus Ti(IV). This metal affinity preference drives deferasirox to facilitate the release of cytotoxic Ti(IV) intracellularly in exchange for Fe(III). An aqueous speciation study performed by potentiometric titration from pH 4 to 8 with micromolar levels of Ti(IV) deferasirox at a 1:2 ratio reveals exclusively Ti(deferasirox)2 in solution. The predominant complex at pH 7.4, [Ti(deferasirox)2]2-, exhibits the one of the highest aqueous stabilities observed for a potent cytotoxic Ti(IV) species, demonstrating little dissociation even after 1 month in cell culture media. UV-vis and 1H NMR studies show that the stability is unaffected by the presence of biomolecular Ti(IV) binders such as citrate, STf, and albumin, which have been shown to induce dissociation or regulate cellular uptake and can alter the activity of other antiproliferative Ti(IV) complexes. Kinetic studies on [Ti(deferasirox)2]2- transmetalation with Fe(III) show that a labile Fe(III) source is required to induce this process. The initial step of this process occurs on the time scale of minutes, and equilibrium for the complete transmetalation is reached on a time scale of hours to a day. This work reveals a mechanism to deliver Ti(IV) compounds into cells and trigger Ti(IV) release by a labile Fe(III) species. Cellular studies including other cTfm ligands confirm the Fe(III) depletion mechanism of these compounds and show their ability to induce early and late apoptosis.

Valoración de ansiedad y burnout en los profesionales de enfermería de un servicio de Nefrología / Assessment of anxiety and burnout in nurses of a unit of Nephrology

Introducción: La enfermería es por naturaleza una profesión con alto riesgo de generar estrés entre sus profesionales. Diversos estudios así lo demuestran1,2. Objetivos: - Valorar la presencia del burn out en nuestro servicio. - Valorar si existen diferencias entre TCAE y enfermeras. - Valorar si hay diferencias según la edad y el tiempo en el servicio. Metodología: Se realizó un estudio de tipo cualitativo, descriptivo, transversal y monocéntrico, en el servicio de nefrología del Hospital U. Rio Hortega de Valladolid. Para ello se utilizó dos cuestionarios, el BMI y el STAI. Resultados: Completaron los cuestionarios el 77,27 %. La muestra fue 11 enfermeras y 5 TCAE y solo uno era un hombre. Las edades oscilan de 28 y 62 años y el tiempo medio en el servicio fue 11,1 años. TEST MBI: - Subescala cansancio emocional: El 12.5% niveles muy altos, el 6.25% niveles medios y el resto niveles bajos. - Subescala de despersonalización: El 12.5% tenía niveles muy altos, el 25% niveles medios y el 62.5% niveles bajos. - Subescala de realización personal: El 25% tenía niveles bajos, el 31.25% tenía niveles medios y el 44.75% tenía niveles altos. Tomando como variables el tiempo trabajado y la edad no hay diferencia estadísticamente significativa. La media para la escala STAI-S fue de 19.53 ± 3.02 y para STAI-T fue de 14,24 ± 7,12. Conclusiones: Los profesionales sanitarios evaluados por el BMI tienen bajos niveles de agotamiento, y de ellos sólo una persona tiene síndrome de burn out. Las enfermeras tienen más agotamiento emocional pero están más satisfechas que las TCAE y la ansiedad es de carácter predominantemente transitorio en ambas (AU)

Introduction: Nursing is by nature a profession with high risk of generating stress among professionals. Several studies show it. Objectives: - Assess the presence of burn out in our unit. - Assess whether there are differences between nursing assistants and nurses. - Assess whether there are differences according to age and time of service. Methodology: A qualitative study, descriptive, cross-sectional and single-center, in the nephrology unit of the University Hospital Rio Hortega of Valladolid was carried out. For this purpose two questionnaires, BMI and STAI were used. Results: Questionnaires were completed on 77.27%. The sample was 11 nurses and five nursing assistants and only one was a man. The ages range from 28 to 62 years and the average time the unit was 11.1 years. TEST MBI: - Emotional exhaustion subscale: 12.5% very high levels, the 6.25% average levels and the rest low levels. - Depersonalization subscale: 12.5% had very high levels, 25% average and 62.5% low levels. - Personal fulfillment subscale: 25% had low levels, 31.25% had average levels and 44.75% had high levels. Taking as variables, time worked and age there are no statistically significant differences. The average for the STAI-S scale was 19.53 ± 3.02 and STAI-T was 14.24 ± 7.12. Conclusions: Healthcare professionals evaluated by BMI have low levels of exhaustion, of which only one person has a burn out syndrome. Nurses have more emotional exhaustion but are more satisfied than nursing assistants, and anxiety in both professions is predominantly transient (AU)

Impact of intravenous acetaminophen on reducing opioid use after hysterectomy.

STUDY OBJECTIVE: To examine the impact of intravenous acetaminophen on the total quantity of opioids (in morphine equivalents) administered within the first 48 hours postoperatively and perioperatively, while still affording patients adequate analgesia, in women who underwent total abdominal hysterectomies. DESIGN: Retrospective chart review. SETTING: Tertiary care community hospital. PATIENTS: One hundred women underwent total abdominal hysterectomies performed by a single surgeon: 50 patients received opioids only (fentanyl, morphine, hydromorphone, meperidine, or oxycodone), without the addition of any acetaminophen, between January 1 and March 28, 2011, and 50 patients received intravenous acetaminophen 1000 mg every 6 hours in addition to opioids (multimodal group) between May 1 and July 16, 2012 (time period coincided with the addition of intravenous acetaminophen to the hospital formulary). Patients in both groups were also given nonopioids (celecoxib, dexmedetomidine, aspirin, or tizanidine) perioperatively. MEASUREMENTS AND MAIN RESULTS: Patients in both groups had a mean age of 55 years (mean±SD 55±13 yrs in the multimodal group, 55±15 yrs in the opioids-only group), surgery time of ~2 hours (116±51 min in the multimodal group, 118±40 min in the opioids-only group), and an anesthesia time of ~3.5 hours (209±79 min in the multimodal group, 207±79 min in the opioids-only group). During postoperative days 1-2, intravenous acetaminophen reduced opioid use by 31% (mean±SD 47±24 mg in the multimodal group vs 68±37 mg in the opioids-only group, p=0.003) and by 26% during the total perioperative period, defined as preoperative, intraoperative, recovery room, and postoperative days 1-2 (73±24 mg in the multimodal group vs 99±39 mg in the opioids-only group, p=0.001). CONCLUSION: The multimodal approach to perioperative analgesic management, which includes concurrent administration of intravenous acetaminophen and opioids, is effective in reducing the total average amount of opioids administered on postoperative days 1-2 and perioperatively. Limitations of this study include its short duration, retrospective design, and single-site setting. These results may not be generalized to patients undergoing other types of obstetric-gynecologic surgeries.

Gq/11-mediated signaling and hypertrophy in mice with cardiac-specific transgenic expression of regulator of G-protein signaling 2.

Cardiac hypertrophy is a well-established risk factor for cardiovascular morbidity and mortality. Activation of G(q/11)-mediated signaling is required for pressure overload-induced cardiomyocyte (CM) hypertrophy to develop. We previously showed that among Regulators of G protein Signaling, RGS2 selectively inhibits G(q/11) signaling and its hypertrophic effects in isolated CM. In this study, we generated transgenic mice with CM-specific, conditional RGS2 expression (dTG) to investigate whether RGS2 overexpression can be used to attenuate G(q/11)-mediated signaling and hypertrophy in vivo. Transverse aortic constriction (TAC) induced a comparable rise in ventricular mass and ANF expression and corresponding hemodynamic changes in dTG compared to wild types (WT), regardless of the TAC duration (1-8 wks) and timing of RGS2 expression (from birth or adulthood). Inhibition of endothelin-1-induced G(q/11)-mediated phospholipase C ß activity in ventricles and atrial appendages indicated functionality of transgenic RGS2. However, the inhibitory effect of transgenic RGS2 on G(q/11)-mediated PLCß activation differed between ventricles and atria: (i) in sham-operated dTG mice the magnitude of the inhibitory effect was less pronounced in ventricles than in atria, and (ii) after TAC, negative regulation of G(q/11) signaling was absent in ventricles but fully preserved in atria. Neither difference could be explained by differences in expression levels, including marked RGS2 downregulation after TAC in left ventricle and atrium. Counter-regulatory changes in other G(q/11)-regulating RGS proteins (RGS4, RGS5, RGS6) and random insertion were also excluded as potential causes. Taken together, despite ample evidence for a role of RGS2 in negatively regulating G(q/11) signaling and hypertrophy in CM, CM-specific RGS2 overexpression in transgenic mice in vivo did not lead to attenuate ventricular G(q/11)-mediated signaling and hypertrophy in response to pressure overload. Furthermore, our study suggests chamber-specific differences in the regulation of RGS2 functionality and potential future utility of the new transgenic model in mitigating G(q/11) signaling in the atria in vivo.

Recirculación de la sangre durante la sesión de hemodiálisis en el catéter tunelizado PalindromeTM / Blood recirculation during the haemodialysis session in the tunnelled catheter PalindromeTM

Uno de los problemas más frecuentes que encontramos al utilizar los catéteres venosos tunelizados como acceso vascular para hemodiálisis, es un déficit de flujo sanguíneo, teniendo que invertir las líneas del circuito para poder continuar la sesión. Los investigadores, conscientes de que así puede aumentar la recirculación y derivar en una menor calidad de la técnica, han diseñado un nuevo modelo de catéter, para evitar en lo posible la recirculación de la sangre. Actualmente, este tipo de catéter es el que se implanta a nuestros pacientes; debido a esto y a la escasez de estudios publicados en estos nuevos catéteres sobre este tema, realizamos un estudio para calcular el porcentaje de recirculación que tienen dichos catéteres, tanto con las líneas del circuito en posición normal como en posición invertida. Calculamos este porcentaje analizando la determinación sérica de la urea, en 4 muestras de sangre, extraídas semanalmente, con las líneas del circuito de hemodiálisis en ambas posiciones y aplicamos la fórmula de recirculación: R = (BUN A2−BUN A1/BUN A2−BUN V) x 100. Tras los resultados obtenidos podemos concluir, que el porcentaje de recirculación de la sangre en dichos catéteres es prácticamente el mismo, tanto con las líneas del circuito en una posición como en otra, habiéndose obtenido unas cifras más que aceptables para poder conseguir hemodiálisis de buena calidad, según los parámetros que aconsejan las guías de la sociedad española de nefrología de accesos vasculares (AU)

One of the most frequent problems we find when using tunnelled venous catheters as vascular access for haemodialysis is a shortfall in blood flow, making it necessary to invert the circuit lines in order to continue the session. Aware that this can increase recirculation and lead to a decreased quality of the technique, researchers have designed a new catheter model to avoid blood recirculation as much as possible. This is the type of catheter currently used with our patients; because of this and the scarcity of studies published on these new catheters with regard to this matter, we carried out a study to calculate the percentage recirculation of these catheters, both with circuit lines in normal position and in inverted position. We calculated this percentage by analysing the determination of urea in serum, in 4 blood samples drawn weekly, with the haemodialysis circuit lines in both positions, and we applied the recirculation formula: R = (BUN A2−BUNA1/BUN A2−BUN V)x100 Based on the results obtained we can conclude that the percentage of blood recirculation in these catheters is practically the same with the circuit lines in each position, and the figures obtained were more than acceptable to achieve a good quality of haemodialysis, according to the parameters recommended by the spanish nefrology society vascular access guidelines (AU)

Regulator of G protein signaling 2 is a functionally important negative regulator of angiotensin II-induced cardiac fibroblast responses.

Cardiac fibroblasts play a key role in fibrosis development in response to stress and injury. Angiotensin II (ANG II) is a major profibrotic activator whose downstream effects (such as phospholipase Cß activation, cell proliferation, and extracellular matrix secretion) are mainly mediated via G(q)-coupled AT(1) receptors. Regulators of G protein signaling (RGS), which accelerate termination of G protein signaling, are expressed in the myocardium. Among them, RGS2 has emerged as an important player in modulating G(q)-mediated hypertrophic remodeling in cardiac myocytes. To date, no information is available on RGS in cardiac fibroblasts. We tested the hypothesis that RGS2 is an important regulator of ANG II-induced signaling and function in ventricular fibroblasts. Using an in vitro model of fibroblast activation, we have demonstrated expression of several RGS isoforms, among which only RGS2 was transiently upregulated after short-term ANG II stimulation. Similar results were obtained in fibroblasts isolated from rat hearts after in vivo ANG II infusion via minipumps for 1 day. In contrast, prolonged ANG II stimulation (3-14 days) markedly downregulated RGS2 in vivo. To delineate the functional effects of RGS expression changes, we used gain- and loss-of-function approaches. Adenovirally infected RGS2 had a negative regulatory effect on ANG II-induced phospholipase Cß activity, cell proliferation, and total collagen production, whereas RNA interference of endogenous RGS2 had opposite effects, despite the presence of several other RGS. Together, these data suggest that RGS2 is a functionally important negative regulator of ANG II-induced cardiac fibroblast responses that may play a role in ANG II-induced fibrosis development.

An essential role for RPE-derived soluble VEGF in the maintenance of the choriocapillaris.

Clinical and experimental observations indicate a role for VEGF secreted by the retinal pigment epithelium (RPE) in the maintenance of the choriocapillaris (CC). VEGF in mice is produced as three isoforms, VEGF120, VEGF164, and VEGF188, that differ in their ability to bind heparan sulfate proteoglycan. RPE normally produces the more soluble isoforms, VEGF120 and VEGF164, but virtually no VEGF188, reflecting the fact that molecules secreted by the RPE must diffuse across Bruch's membrane (BrM) to reach the choriocapillaris. To determine the role of RPE-derived soluble VEGF on the choriocapillaris survival, we used mice that produce only VEGF188. VEGF188/188 mice exhibited normal choriocapillaris development. However, beginning at 7 months of age, we observed a progressive degeneration characterized by choriocapillaris atrophy, RPE and BrM abnormalities, culminating in areas of RPE loss and dramatic choroidal remodeling. Increased photoreceptor apoptosis in aged VEGF188/188 mice led to a decline in visual acuity as detected by electroretinogram (ERG). These changes are reminiscent of geographic atrophy (GA) and point to a role for RPE-derived VEGF in the maintenance of the choriocapillaris.

TGF-beta is required for vascular barrier function, endothelial survival and homeostasis of the adult microvasculature.

Pericyte-endothelial cell (EC) interactions are critical to both vascular development and vessel stability. We have previously shown that TGF-beta signaling between EC and mural cells participates in vessel stabilization in vitro. We therefore investigated the role of TGF-beta signaling in maintaining microvessel structure and function in the adult mouse retinal microvasculature. TGF-beta signaling was inhibited by systemic expression of soluble endoglin (sEng) and inhibition was demonstrated by reduced phospho-smad2 in the adult retina. Blockade of TGF-beta signaling led to increased vascular and neural cell apoptosis in the retina, which was associated with decreased retinal function, as measured by electroretinogram (ERG). Perfusion of the inner retinal vasculature was impaired and was accompanied by defective autoregulation and loss of capillary integrity. Fundus angiography and Evans blue permeability assay revealed a breakdown of the blood-retinal-barrier that was characterized by decreased association between the tight junction proteins zo-1 and occludin. Inhibition of TGF-beta signaling in cocultures of EC and 10T1/2 cells corroborated the in vivo findings, with impaired EC barrier function, dissociation of EC from 10T1/2 cells, and endothelial cell death, supporting the role of EC-mesenchymal interactions in TGF-beta signaling. These results implicate constitutive TGF-beta signaling in maintaining the integrity and function of the adult microvasculature and shed light on the potential role of TGF-beta signaling in vasoproliferative and vascular degenerative retinal diseases.

VEGF and TGF-beta are required for the maintenance of the choroid plexus and ependyma.

Although the role of vascular endothelial growth factor (VEGF) in developmental and pathological angiogenesis is well established, its function in the adult is less clear. Similarly, although transforming growth factor (TGF) beta is involved in angiogenesis, presumably by mediating capillary (endothelial cell [EC]) stability, its involvement in quiescent vasculature is virtually uninvestigated. Given the neurological findings in patients treated with VEGF-neutralizing therapy (bevacizumab) and in patients with severe preeclampsia, which is mediated by soluble VEGF receptor 1/soluble Fms-like tyrosine kinase receptor 1 and soluble endoglin, a TGF-beta signaling inhibitor, we investigated the roles of VEGF and TGF-beta in choroid plexus (CP) integrity and function in adult mice. Receptors for VEGF and TGF-beta were detected in adult CP, as well as on ependymal cells. Inhibition of VEGF led to decreased CP vascular perfusion, which was associated with fibrin deposition. Simultaneous blockade of VEGF and TGF-beta resulted in the loss of fenestrae on CP vasculature and thickening of the otherwise attenuated capillary endothelium, as well as the disappearance of ependymal cell microvilli and the development of periventricular edema. These results provide compelling evidence that both VEGF and TGF-beta are involved in the regulation of EC stability, ependymal cell function, and periventricular permeability.

Coordinated vascular endothelial growth factor expression and signaling during skeletal myogenic differentiation.

Angiogenesis is largely controlled by hypoxia-driven transcriptional up-regulation and secretion of vascular endothelial growth factor (VEGF) and its binding to the endothelial cell tyrosine receptor kinases, VEGFR1 and VEGFR2. Recent expression analysis suggests that VEGF is expressed in a cell-specific manner in normoxic adult tissue; however, the transcriptional regulation and role of VEGF in these tissues remains fundamentally unknown. In this report we demonstrate that VEGF is coordinately up-regulated during terminal skeletal muscle differentiation. We reveal that this regulation is mediated in part by MyoD homo- and hetero-dimeric transcriptional mechanisms. Serial deletions of the VEGF promoter elucidated a region containing three tandem CANNTG consensus MyoD sites serving as essential sites of direct interaction for MyoD-mediated up-regulation of VEGF transcription. VEGF-null embryonic stem (ES) cells exhibited reduced myogenic differentiation compared with wild-type ES cells, suggesting that VEGF may serve a role in skeletal muscle differentiation. We demonstrate that VEGFR1 and VEGFR2 are expressed at low levels in myogenic precursor cells and are robustly activated upon VEGF stimulation and that their expression is coordinately regulated during skeletal muscle differentiation. VEGF stimulation of differentiating C2C12 cells promoted myotube hypertrophy and increased myogenic differentiation, whereas addition of sFlt1, a VEGF inhibitor, resulted in myotube hypotrophy and inhibited myogenic differentiation. We further provide evidence indicating VEGF-mediated myogenic marker expression, mitogenic activity, migration, and prosurvival functions may contribute to increased myogenesis. These data suggest a novel mechanism whereby VEGF is coordinately regulated as part of the myogenic differentiation program and serves an autocrine function regulating skeletal myogenesis.

VEGF expression and receptor activation in the choroid during development and in the adult.

PURPOSE: Previous studies have demonstrated a role for the retinal pigment epithelium (RPE) in the development and maintenance of the choroidal vasculature, suggesting that RPE serves a trophic role for the choroidal vessels. The goal of this study was to determine the expression pattern of vascular endothelial growth factor (VEGF) and its receptors and their activation status in embryonic and adult choroid, with the purpose of providing cues regarding the role of VEGF in development and stabilization of the choroidal vasculature. METHODS: Transgenic VEGF-LacZ mice were used to examine VEGF expression in embryonic and adult eyes. Expression of VEGF isoforms and receptors in the RPE-choroid complex was assessed by RT-PCR and real-time PCR. VEGF receptor 2 expression was assessed by immunohistochemistry and its activation state was examined by immunoprecipitation followed by phosphotyrosine blot. RESULTS: VEGF is expressed by RPE throughout the choroidal vascular development and in the adult. The major VEGF isoforms detected in adult RPE were VEGF120 and VEGF164, with almost no detectable VEGF188. RT-PCR analysis showed expression of VEGF receptors and coreceptors in the RPE-choroid complex. VEGFR2 was detected in the choriocapillaris underlying the RPE. Immunoprecipitation and phosphotyrosine blot of this receptor revealed that VEGFR2 is activated in adult mouse and bovine choroids. CONCLUSIONS: The observations suggest that VEGF signaling is involved, not only in choroidal vessel formation, but perhaps also in the maintenance of the choriocapillaris.

Vascular endothelial growth factor localization in the adult.

Although vascular endothelial growth factor (VEGF) has been well studied in both developmental and pathological angiogenesis, its role in mature blood vessels is poorly understood. A growing body of observations, including the side effects of anti-VEGF therapies as well as the role of soluble VEGFR1 in preeclampsia, points to an important role for VEGF in maintenance of stable blood vessels. To better understand the potential function of VEGF in mature vessels, a survey of VEGF localization in adult mice was conducted. In adult VEGF-lacZ mice, VEGF was expressed in a cell-specific manner by cells overlying fenestrated and sinusoidal blood vessels, including podocytes, choroid plexus epithelium, and hepatocytes, as well as in tissues with high metabolic demands or with secretory functions, such as cardiac and skeletal myocytes, Leydig cells, prostatic epithelium, and salivary serous epithelium. VEGF was not detected in most endothelium but was specifically expressed by aortic endothelial cells where VEGFR2 was found to be phosphorylated, indicating an autocrine loop. Additionally, VEGFR2 was constitutively phosphorylated in the liver, lung, adipose, and kidney in vivo, providing evidence consistent with a role for VEGF in adult tissues. These observations support the concept that VEGF acts in the adult to stabilize mature vessels.

Betacap73-ARF6 interactions modulate cell shape and motility after injury in vitro.

To understand the role that ARF6 plays in regulating isoactin dynamics and cell motility, we transfected endothelial cells (EC) with HA-tagged ARF6: the wild-type form (WT), a constitutively-active form unable to hydrolyze GTP (Q67L), and two dominant-negative forms, which are either unable to release GDP (T27N) or fail to bind nucleotide (N122I). Motility was assessed by digital imaging microscopy before Western blot analysis, coimmunoprecipitation, or colocalization studies using ARF6, beta-actin, or beta-actin-binding protein-specific antibodies. EC expressing ARF6-Q67L spread and close in vitro wounds at twice the control rates. EC expressing dominant-negative ARF6 fail to develop a leading edge, are unable to ruffle their membranes (N122I), and possess arborized processes. Colocalization studies reveal that the Q67L and WT ARF6-HA are enriched at the leading edge with beta-actin; but T27N and N122I ARF6-HA are localized on endosomes together with the beta-actin capping protein, betacap73. Coimmunoprecipitation and Western blot analyses reveal the direct association of ARF6-HA with betacap73, defining a role for ARF6 in signaling cytoskeletal remodeling during motility. Knowledge of the role that ARF6 plays in orchestrating membrane and beta-actin dynamics will help to reveal molecular mechanisms regulating actin-based motility during development and disease.