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Dual amylin and calcitonin receptor agonists (DACRAs) show promise as efficacious therapeutics for treatment of metabolic disease, including obesity. However, differences in efficacy in vivo have been observed for individual DACRAs, indicating that detailed understanding of the pharmacology of these agents across target receptors is required for rational drug development. To date, such understanding has been hampered by lack of direct, subtype-selective, functional assays for the amylin receptors (AMYRs). Here, we describe the generation of receptor-specific assays for recruitment of Venus-tagged Gs protein through fusion of luciferase to either the human calcitonin receptor (CTR), human receptor activity-modifying protein (RAMP)-1, RAMP1 (AMY1R), human RAMP2 (AMY2R), or human RAMP3 (AMY3R). These assays revealed a complex pattern of receptor activation by calcitonin, amylin, or DACRA peptides that was distinct at each receptor subtype. Of particular note, although both of the CT-based DACRAs, sCT and AM1784, displayed relatively similar behaviors at CTR and AMY1R, they generated distinct responses at AMY2R and AMY3R. These data aid the rationalization of in vivo differences in response to DACRA peptides in rodent models of obesity. Direct assessment of the pharmacology of novel DACRAs at AMYR subtypes is likely to be important for development of optimized therapeutics for treatment of metabolic diseases. SIGNIFICANCE STATEMENT: Amylin receptors (AMYRs) are important obesity targets. Here we describe a novel assay that allows selective functional assessment of individual amylin receptor subtypes that provides unique insight into the pharmacology of potential therapeutic ligands. Direct assessment of the pharmacology of novel agonists at AMYR subtypes is likely to be important for development of optimized therapeutics for treatment of metabolic diseases.
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Enfermedades Metabólicas , Neuropéptidos , Humanos , Receptores de Calcitonina/metabolismo , Proteínas Modificadoras de la Actividad de Receptores , Receptores de Polipéptido Amiloide de Islotes Pancreáticos , Polipéptido Amiloide de los Islotes Pancreáticos , Receptores de Péptidos/metabolismo , Proteínas de la Membrana/metabolismo , Péptidos y Proteínas de Señalización Intracelular , ObesidadRESUMEN
Transcription of retroviruses is initiated at the U3-R region boundary in the integrated provirus and continues unidirectionally to produce genomic and mRNA products of positive polarity. Several studies have recently demonstrated the existence of naturally occurring protein-encoding transcripts of negative polarity in complex retroviruses. We report here on the identification of transcripts of negative polarity in simple murine leukemia virus (MLV). In T-cell and B-cell lymphomas induced by SL3-3 and Akv MLV, antisense transcripts initiated in the U3 region of the proviral 5' long terminal repeat (LTR) and continued into the cellular proto-oncogenes Jdp2 and Bach2 to create chimeric transcripts consisting of viral and host sequence. The phenomenon was validated in vivo using a knock-in mouse model homozygous for a single LTR at a position known to activate Nras in B-cell lymphomas. A 5' rapid amplification of cDNA ends (RACE) analysis indicated a broad spectrum of initiation sites within the U3 region of the 5' LTR. Our data show for the first time transcriptional activity of negative polarity initiating in the U3 region of simple retroviruses and suggest a novel mechanism of insertional activation of host genes. Elucidation of the nature and potential regulatory role of 5' LTR antisense transcription will be relevant to the design of therapeutic vectors and may contribute to the increasing recognition of pervasive eukaryotic transcription.
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Genes Virales , Virus de la Leucemia Murina/genética , Mutagénesis Insercional , Provirus/genética , ARN sin Sentido/biosíntesis , ARN Viral/biosíntesis , Transcripción Genética , Animales , Ratones , ARN sin Sentido/genética , ARN Viral/genética , Sitio de Iniciación de la TranscripciónRESUMEN
BACKGROUND: Oral delivery of insulin was recently demonstrated to have therapeutic relevance in patients with diabetes. Insulin receptors are expressed in the gastrointestinal tract and can be activated by insulin in the bloodstream, but it is not known if the large amount of insulin in the intestinal lumen required for sufficient oral delivery will induce a different effect. The aim of this study was to compare the acute effect in the intestine of insulin administered in the intestinal lumen with that of insulin administered by a parenteral route. METHOD: Intraintestinal (ii) injection in the mid-jejunum of anaesthetized rats with insulin analogue 106 (I106), formulated with the absorption-enhancer sodium caprate, was used as an animal model of oral insulin administration. As control treatment, rats were treated with I106 by iv infusion according to algorithms which precisely mimicked the pharmacokinetic and pharmacodynamic properties of ii administered I106. Several fold more I106 was administered by ii injection than by iv infusion. Phosphorylated Akt (Ser473) was used as indicator of insulin-stimulated acute effects in the intestine. RESULTS: Treatment with I106 resulted in activation of Akt in the intestine, with no significant difference between the effects of ii or iv administration. CONCLUSION: The results from this rat model of orally administered insulin indicate that the unabsorbed insulin in the intestinal lumen after oral administration will not result in an enhanced acute effect in the intestine.
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Insulina/análogos & derivados , Insulina/administración & dosificación , Absorción Intestinal/efectos de los fármacos , Intestino Delgado/efectos de los fármacos , Receptor de Insulina/metabolismo , Transducción de Señal/efectos de los fármacos , Animales , Glucemia , Insulina/sangre , Intestino Delgado/metabolismo , Masculino , Ratas , Ratas Sprague-DawleyRESUMEN
Cancer disorders exhibit an increasing high global incidence, in part, to an aging population with a high socio-economic burden. The cellular transition from normal to malignant state is linked to deregulated gene expression. The discovery of microRNA-mediated cellular regulation by the RNA interference (RNAi) pathway and the possibility to engage this pathway with exogenous triggers such as small interfering RNA (siRNA) could offer a new paradigm in anti-cancer intervention with RNAi-based therapeutics. The potential to silence the expression of any cancer-relevant protein with high selectivity promotes RNAi therapeutics as a more effective and safer treatment to traditional approaches. This combined with microRNA-based tumour profiling could pave the way for personalised approaches based on the genetic characteristics of the individual. Clinical translation of this technology, however, depends on the development of systems for effective delivery of the molecular medicine to the target site. Polycation-based nanoparticles (termed polyplexes) constitute an attractive platform for RNAi therapeutic delivery due to flexibility and versatility in design to overcome extracellular and intracellular barriers. In this review we focus on pre-clinical and clinical studies using polycation-based nanocarriers for RNAi mediated anti-cancer intervention after intratumoural or intravenous administration. Potential RNAi targets are highlighted and special attention is given to the enhanced permeability and retention (EPR) effect commonly cited at the predominant mechanism of delivery after systemic administration. The cyclodextrin polymer-based system now in clinical trials offers optimism that polyplexes may potentially be used for RNAi-mediated cancer intervention in the clinic.
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Nanopartículas/uso terapéutico , Neoplasias/terapia , Poliaminas/uso terapéutico , Interferencia de ARN , Humanos , PolielectrolitosRESUMEN
Inflammatory bowel disease (IBD) is a chronic, relapsing, idiopathic inflammation of the gastrointestinal tract with no permanent cure. Present immunosuppressive and anti-inflammatory therapies are often ineffective and associated with severe side effects. An RNA interference (RNAi)-based approach in which small interfering RNA (siRNA) mediates specific downregulation of key molecular targets of the IBD inflammatory process may offer a precise, potent and safer alternative to conventional treatments. This review describes the aetiology of Crohn's disease and ulcerative colitis and the cellular and molecular basis for current treatments to highlight target candidates for an RNAi-based approach. Promising preclinical studies support an RNAi application; however, optimal siRNA designs that maximise potency and development of enabling technologies for site- and cellular-specific delivery are prerequisites for clinical translation.
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The ability to harness the RNA interference (RNAi) mechanism as a potential potent therapeutic has attracted great interest from academia and industry. Numerous preclinical and recent clinical trials have demonstrated the effectiveness of RNAi triggers such as synthetic small interfering RNA (siRNA). Chemical modification and delivery technologies can be utilized to avoid immune stimulation and improve the bioactivity and pharmacokinetics. Local application to the respiratory epithelia allows direct access to the site of respiratory pathogens that include influenza and respiratory syncytial virus (RSV). This review outlines the essential steps required for the clinical translation of RNAi-based respiratory therapies including disease and RNA target selection, siRNA design, respiratory barriers, and delivery solutions. Attention is given to antiviral therapies and preclinical evaluation with focus on the current status of anti-RSV clinical trials.
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Harnessing the RNA interference pathway offers a new therapeutic modality; however, solutions to overcome biological barriers to small interfering RNA (siRNA) delivery are required for clinical translation. This work demonstrates, by direct northern and quantitative PCR (qPCR) detection, stability, gastrointestinal (GI) deposition, and translocation into peripheral tissue of nonmodified siRNA after oral gavage of chitosan/siRNA nanoparticles in mice. In contrast to naked siRNA, retained structural integrity and deposition in the stomach, proximal and distal small intestine, and colon was observed at 1 and 5 hours for siRNA within nanoparticles. Furthermore, histological detection of fluorescent siRNA at the apical regions of the intestinal epithelium suggests mucoadhesion provided by chitosan. Detection of intact siRNA in the liver, spleen, and kidney was observed 1 hour after oral gavage, with an organ distribution pattern influenced by nanoparticle N:P ratio that could reflect differences in particle stability. This proof-of-concept work presents an oral delivery platform that could have the potential to treat local and systemic disorders by siRNA.Molecular Therapy - Nucleic Acids (2013) 2, e76; doi:10.1038/mtna.2013.2; published online 5 March 2013.
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To investigate mechanisms and phenotypic effects of insertional mutagenesis by gammaretroviruses, we have developed mouse lines containing a single Akv 1-99 long terminal repeat (LTR) and a floxed PGK/Tn5 neomycin cassette at the Nras proto-oncogene at positions previously identified as viral integration sites in Akv 1-99 induced tumors. The insert did not compromise the embryonic development, however, the cassette had an effect on Nras expression in all tissues analyzed. Cre-mediated excision of the PGK/Tn5 neomycin cassette in two of the lines caused upregulation of Nras. Altogether, the knock-in alleles are characterized by modulation of expression of the target gene from more than ten-fold upregulation to three-fold downregulation and exemplify various mechanisms of deregulation by insertional mutagenesis. LTR knock-in mice may serve as a tool to investigate mechanisms of retroviral insertional mutagenesis and as a way of constitutive or induced modulation of expression of a target gene.
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Gammaretrovirus/genética , Genes ras/genética , Secuencias Repetidas Terminales , Integración Viral , Alelos , Animales , Gammaretrovirus/metabolismo , Ratones , Mutagénesis InsercionalRESUMEN
Small interfering RNA (siRNA) that silence genes by the process of RNA interference offers a new therapeutic modality for disease treatment. Polycation-based nanoparticles termed polyplexes have been developed to maximise extracellular and intracellular siRNA delivery, a key requirement for enabling the clinical translation of RNAi-based drugs. Medical applications are dependent on safety; therefore, detailed investigation into potential toxicity to the cell or organism is required. This review addresses potential adverse effects arising from cellular and tissue interactions, immune stimulation and altered gene expression that can be associated with the assembled polyplex or the polycation and siRNA component parts. A greater understanding of the cellular mechanisms involved allows design-based solutions for rationale development of safe, effective and clinically relevant polyplex-based RNAi drugs.
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Nanopartículas , Poliaminas/efectos adversos , ARN Interferente Pequeño/efectos adversos , Animales , Diseño de Fármacos , Regulación de la Expresión Génica , Silenciador del Gen , Humanos , Sistema Inmunológico/metabolismo , MicroARNs/genética , Poliaminas/química , Polielectrolitos , ARN Interferente Pequeño/administración & dosificaciónRESUMEN
NRAS is a proto-oncogene involved in numerous myeloid malignancies. Here, we report on a mouse line bearing a single retroviral long terminal repeat inserted into Nras. This genetic modification resulted in an increased level of wild type Nras mRNA giving the possibility of studying the function and activation of wild type NRAS. Flow cytometry was used to show a variable but significant increase of immature myeloid cells in spleen and thymus, and of T-cells in the spleen. At an age of one week, homozygous mice began to retard compared to their wild type and heterozygous littermates. Two weeks after birth, animals started to progressively lose weight and die before weaning. Heterozygous mice showed a moderate increase of T-cells and granulocytes but survived to adulthood and were fertile. In homozygous and heterozygous mice Gfi1 and Gcsf mRNA levels were upregulated, possibly explaining the increment in immature myeloid cells detected in these mice. The short latency period indicates that Nras overexpression alone is sufficient to cause dose-dependent granulocytosis and T-cell expansion.