Cytokines in the Treatment of Melanoma.

PURPOSE OF REVIEW: The use of cytokines in harnessing the immune system to eradicate cancer has been an important treatment modality. However, the dose-limiting toxicities of these cytokines limited their usage in clinic. Here, we review the basic biology of cytokines involved in the treatment of melanoma and discuss their therapeutic applications. Moreover, we describe several innovative technological approaches that have been developed to improve the pharmacokinetics, safety, and efficacy of these cytokines. RECENT FINDINGS: The safety and the anti-tumor activity of newly engineered cytokines including PEGylated IL-2 (NKTR-214), PEGylated IL-10 (AM0010), and IL-15 super agonist (ALT-803) have been evaluated in clinical trials with encouraging clinical activity and acceptable safety profile, both as single agents and in combination with immuno-oncology agents. A greater understanding of the mechanisms of action and effective dosing of these newly engineered cytokine together with determination of optimum combination therapy regimens may yield greater clinical benefits in the future.

Low-fluence laser-facilitated platelet-rich plasma permeation for treating MRSA-infected wound and photoaging of the skin.

Platelet-rich plasma (PRP) is rich in cytokines and growth factors and is a novel approach for tissue regeneration. It can be used for skin rejuvenation but the large molecular size of the actives limits its topical application. In this study, low-fluence laser-facilitated PRP was delivered to evaluate its effect on absorption through the skin, infection-induced wound, and photoaging. The PRP permeation enhancement was compared for two ablative lasers: fractional (CO2) laser and fully-ablative (Er:YAG) laser. In the Franz cell experiment, pig skin was treated with lasers with superficial ablation followed by the application of recombinant cytokines, growth factors, or PRP. The transport of interferon (IFN)-γ and tumor necrosis factor (TNF)-α was negligible in intact skin and stratum corneum (SC)-stripped skin. Both lasers significantly elevated skin deposition of IFN-γ and TNF-α from PRP, and fully-ablative laser showed a higher penetration enhancement. A similar tendency was found for vascular endothelial growth factor and epidermal growth factor. Er:YAG laser-exposed skin displayed 1.8- and 3.9-fold higher skin deposition of platelet-derived growth factor (PDGF)-BB and transforming growth factor (TGF)-ß1 from PRP, respectively. According to the confocal images, both laser interventions led to an extensive and deep distribution of IFN-γ and PDGF-BB in the skin. In the in vivo methicillin-resistant Staphylococcus aureus (MRSA) infection model, CO2 laser- and Er:YAG laser-assisted PRP delivery reduced bacterial load from 1.8 × 106 to 5.9 × 105 and 1.4 × 104 colony-forming units, respectively. The open wound induced by MRSA was closed by the laser-assisted PRP penetration. In the mouse photoaging model, elastin and collagen deposition were fully restored by combined PRP and full-ablative laser but not by PRP alone and PRP combined with fractional laser. Laser-facilitated PRP delivery even with a low fluence setting can be considered a promising strategy for treating some dermatological disorders.

A comparative review of intelectins.

Intelectin (ITLN) is a new type of glycan-binding lectin. It has been demonstrated to agglutinate bacteria probably due to its carbohydrate-binding capacity, suggesting its role in an innate immune response. It is involved not only in many physiological processes but also in some human diseases such as asthma, heart disease, inflammatory bowel disease, chronic obstructive pulmonary disease and cancer. Up to now, intelectin orthologs have been identified in placozoans, urochordatas, cephalochordates and several vertebrates, such as cyclostomata, fish, amphibians and mammals. Although the sequences of intelectins in different species are conserved, their expression patterns, quaternary structures and functions differ considerably among and within species. We summarize the evolution of the intelectin gene family, the tissue distribution, structure and functions of intelectins. We conclude that intelectin plays a role in innate immune response and there are still potential functions of intelectin awaiting discovery.

Update on Therapeutic Protein-Drug Interaction: Information in Labeling.

This review evaluated the significance of therapeutic protein (TP)-drug interactions and the current practices for assessing the interaction potential. We reviewed US FDA labels of approved TPs with drug-drug interaction (DDI) assessment. TP-drug interactions have been evaluated from in vitro studies, animal studies, and/or clinical settings. Of the 150 FDA-approved TPs as of May 2019, 49 TP labels contained pharmacokinetic (PK)-related DDI information derived from at least one study method. Our review found that more than half of the clinical PK DDI evaluations showed no interaction, and no dose adjustment has been recommended for any of the rest TPs. The results and trends observed in this review may further enhance and inform risk-based approaches to evaluating the potential for TP-drug interactions.

Bioresponsive microspheres for on-demand delivery of anti-inflammatory cytokines for articular cartilage repair.

Despite innovations in surgical interventions, treatment of cartilage injury in osteoarthritic joints remains a challenge due to concomitant inflammation. Obstructing a single dominant inflammatory cytokine has shown remarkable clinical benefits in rheumatoid arthritis, and similar strategies are being suggested to target inflammatory pathways in osteoarthritis (OA). Here, we describe the utility of gelatin microspheres that are responsive to proteolytic enzymes typically expressed in arthritic flares, resulting in on-demand and spatiotemporally controlled release of anti-inflammatory cytokines for cartilage preservation and repair. These microspheres were designed with a net negative charge to sequester cationic anti-inflammatory cytokines, and the magnitude of the negative charge potential increased with an increase in crosslinking density. Collagenase-mediated degradation of the microspheres was dependent on the concentration of the enzyme. Release of anti-inflammatory cytokines from the loaded microspheres directly correlated with the degradation of the gelatin matrix. Exposure of the IL-4 and IL-13 loaded microspheres reduced the inflammation of chondrocytes up to 80%. Hence, the delivery of these microspheres in an OA joint can attenuate the stimulation of chondrocytes and the resulting secretion of catabolic factors such as proteinases and nitric oxide. The microsphere format also allows for minimally invasive delivery and is less susceptible to mechanically induced drug release. Consequently, bioresponsive microspheres can be an effective tool for cartilage preservation and arthritis treatment.

Natural Killer Cells may Exert Antidepressant-like Effects in Mice by Controlling the Release of Inflammatory Factors.

Depression or stress is reportedly related to the overflow of inflammatory factors in the body and T cells were reported to play important roles in balancing the release of inflammatory factors through vagus nerve circuit. However, few works have been conducted to find if natural killer (NK) cells can also exert the similar function in the reported vagus nerve circuit as T cells and if there was any relationship between depression and this function. In the present study, the behavioral tests on BALB/c mice indicated that the depressant-like symptoms could be improved and simultaneously the concentrations of inflammatory factors in peripheral blood could be reduced significantly by adoptively transferring NK cells into stressed BALB/c mice. The results revealed that NK cells could control the release of inflammatory factors secreted by macrophages and ß2-AR (ß2-adrenergic receptor) on the NK cells were of great importance. Behavioral tests on NCG mice indicated that the antidepressant-like effects of NK cells notably declined after adoptively transferring NK cells with ß2-AR deficiency or with ChAT (choline acetyltransferase) deficiency into stressed NCG mice. Simultaneously, the anti-inflammatory effects also declined significantly both in vivo and in vitro, which indicated that the antidepressant-like property of NK cells may be related to its ability of controlling the release of inflammatory factors. Taken together, we find that NK cells may balance the release of inflammatory factors in our body by transporting the information between the terminal vagal branches and macrophages, which is the mechanism that NK cells may exert antidepressant-like effects.

Challenges in the local delivery of peptides and proteins for oral mucositis management.

Oral mucositis, a common inflammatory side effect of oncological treatments, is a disorder of the oral mucosa that can cause painful ulcerations, local motor disabilities, and an increased risk of infections. Due to the discomfort it produces and the associated health risks, it can lead to cancer treatment restrains, such as the need for dose reduction, cycle delays or abandonment. Current mucositis management has low efficiency in prevention and treatment. A topical drug application for a local action can be a more effective approach than systemic routes when addressing oral cavity pathologies. Local delivery of growth factors, antibodies, and anti-inflammatory cytokines have shown promising results. However, due to the peptide and protein nature of these novel agents, and the several anatomic, physiological and environmental challenges of the oral cavity, their local action might be limited when using traditional delivering systems. This review is an awareness of the issues and strategies in the local delivery of macromolecules for the management of oral mucositis.

Prediction of the Optimal Dosing Regimen Using a Mathematical Model of Tumor Uptake for Immunocytokine-Based Cancer Immunotherapy.

Purpose: Optimal dosing is critical for immunocytokine-based cancer immunotherapy to maximize efficacy and minimize toxicity. Cergutuzumab amunaleukin (CEA-IL2v) is a novel CEA-targeted immunocytokine. We set out to develop a mathematical model to predict intratumoral CEA-IL2v concentrations following various systemic dosing intensities.Experimental Design: Sequential measurements of CEA-IL2v plasma concentrations in 74 patients with solid tumors were applied in a series of differential equations to devise a model that also incorporates the peripheral concentrations of IL2 receptor-positive cell populations (i.e., CD8+, CD4+, NK, and B cells), which affect tumor bioavailability of CEA-IL2v. Imaging data from a subset of 14 patients were subsequently utilized to additionally predict antibody uptake in tumor tissues.Results: We created a pharmacokinetic/pharmacodynamic mathematical model that incorporates the expansion of IL2R-positive target cells at multiple dose levels and different schedules of CEA-IL2v. Model-based prediction of drug levels correlated with the concentration of IL2R-positive cells in the peripheral blood of patients. The pharmacokinetic model was further refined and extended by adding a model of antibody uptake, which is based on drug dose and the biological properties of the tumor. In silico predictions of our model correlated with imaging data and demonstrated that a dose-dense schedule comprising escalating doses and shortened intervals of drug administration can improve intratumoral drug uptake and overcome consumption of CEA-IL2v by the expanding population of IL2R-positive cells.Conclusions: The model presented here allows simulation of individualized treatment plans for optimal dosing and scheduling of immunocytokines for anticancer immunotherapy. Clin Cancer Res; 24(14); 3325-33. ©2018 AACRSee related commentary by Ruiz-Cerdá et al., p. 3236.

A insulina regula as vias de sinalização induzidas por LPS em macrófagos derivados de medula óssea / Insulin regulates LPS-induced signaling pathways in macrophages derived from bone marrow

Pacientes diabéticos apresentam alterações no sistema imunológico que promovem, em parte, maior suscetibilidade de infecções bacterianas. O tratamento com insulina melhora a sobrevida e reduz o número de infecções recidivas no paciente com diabetes mellitus do tipo 1 (DM1). Pouco se sabe sobre os efeitos do diabetes e a ação da insulina nos macrófagos. Neste trabalho, investigamos a proteína fosfatidilinositol-3-quinase (PI3K), proteína quinase B (Akt) e as quinases ativadas por mitógenos (MAPK) em macrófagos derivados de medula óssea (BMDM) e sua participação no estímulo por lipopolissacarídeo (LPS) na presença ou não do tratamento com insulina através da secreção dos mediadores inflamatórios fator de necrose tumoral (TNF)-α, interleucina (IL)-6 e IL-10. Observamos que os BMDM de animais com DM1 apresentam aumento da expressão da subunidade catalítica PI3K p110alpha com redução na subunidade reguladora PI3K p55 e maior expressão da fosforilação das proteínas Akt (Serina-473 e Treonina-308), quinase regulada por sinal extracelular (ERK) 1/2 e quinase ativada por estresse/quinase Jun-amino-terminal (SAPK/JNK) MAPK. Observou-se alteração na concentração das citocinas TNF-α, IL-6 e IL-10 no sobrenadante da cultura de BMDM dos animais diabéticos após estímulo com LPS, menor taxa de metabolismo mitocondrial, no entanto, sem resultar em morte celular, tampouco na expressão do receptor do tipo Toll 4 na membrana celular. Já o reestímulo destas células com LPS promoveu aumento na concentração de TNF-α sem alteração das demais citocinas. Além disto, o tratamento com insulina, simultaneamente ao estímulo com LPS, dos BMDM oriundos de animais diabéticos aumentou a concentração de TNF-α, IL-6, da fosforilação de p38, ERK 1/2 e SAPK/JNK MAPK, PI3K p55 e da Akt (Serina-473), o que não ocorreu nos BMDM dos animais não diabéticos sob a mesma condição. Este efeito foi abolido pela inibição farmacológica da PI3K e da ERK 1/2, resultando em novo aumento da concentração de TNF-α e IL-6. A análise conjunta destes resultados indica que a insulina, através da modulação das vias PI3K, Akt, ERK 1/2 e SAPK/JNK, amplifica o aumento da concentração de TNF-α e IL-6 sob estímulo com LPS

Diabetic patients present alterations in the immune system that promote in part a greater susceptibility of bacterial infections. Insulin treatment improves survival and reduces the number of recurrent infections in patients with type 1 diabetes mellitus (DM1). Little is known about the effects of diabetes and the action of insulin on macrophages. In this work we investigated the phosphatidylinositol-3-kinase (PI3K) / protein kinase B (Akt) and mitogen-activated kinase (MAPK) proteins in bone marrow-derived macrophages (BMDM) and their participation in lipopolysaccharide (LPS) or treatment with insulin through the secretion of inflammatory mediators tumor necrosis factor (TNF) -α, interleukin (IL) -6 and IL-10. We observed that BMDM of animals with DM1 increased PI3K p110alpha catalytic subunit expression with a reduction in the PI3K p55 regulatory subunit and increased expression of the phosphorylation of the Akt (Serine-473 and Threonine-308), extracellular signal regulated kinase (ERK) 1/2 and Jun-amino-terminal stress-kinase / kinase (SAPK / JNK) MAPK. Changes in the concentration of TNF-α, IL-6 and IL-10 cytokines in the supernatant of the BMDM culture of diabetic animals after stimulation with LPS were observed, possibly due to a lower rate of mitochondrial metabolism, however, without resulting in cell death , so little in the expression of the Toll 4 receptor on the cell membrane. The re-stimulation of these cells with LPS promoted an increase in TNF-α concentration without alteration of the other cytokines. In addition, insulin and simultaneously LPS stimulation of BMDM from diabetic animals increased the concentration of TNF-α, IL-6, phosphorylation of p38, ERK 1/2 and SAPK / JNK MAPK, PI3K p55 and Akt (Serine-473), which did not occur in the BMDM of non-diabetic animals under the same condition. This effect was abolished by pharmacological inhibition of PI3K and ERK 1/2, resulting in a further increase in the concentration of TNF-α and IL-6. The analysis of these results indicate that insulin by modulating the PI3K, Akt, ERK 1/2 and SAPK / JNK pathways amplifies the concentration levels of TNF-α and IL-6 under stimulation with LPS

In vitro assessment of a novel, hypothermically stored amniotic membrane for use in a chronic wound environment.

Chronic wounds require extensive healing time and place patients at risk of infection and amputation. Recently, a fresh hypothermically stored amniotic membrane (HSAM) was developed and has subsequently shown promise in its ability to effectively heal chronic wounds. The purpose of this study is to investigate the mechanisms of action that contribute to wound-healing responses observed with HSAM. A proteomic analysis was conducted on HSAM, measuring 25 growth factors specific to wound healing within the grafts. The rate of release of these cytokines from HSAMs was also measured. To model the effect of these cytokines and their role in wound healing, proliferation and migration assays with human fibroblasts and keratinocytes were conducted, along with tube formation assays measuring angiogenesis using media conditioned from HSAM. Additionally, the cell-matrix interactions between fibroblasts and HSAM were investigated. Conditioned media from HSAM significantly increased both fibroblast and keratinocyte proliferation and migration and induced more robust tube formation in angiogenesis assays. Fibroblasts cultured on HSAMs were found to migrate into and deposit matrix molecules within the HSAM graft. These collective results suggest that HSAM positively affects various critical pathways in chronic wound healing, lending further support to promising qualitative results seen clinically and providing further validation for ongoing clinical trials.

Nanofibers as novel drug carrier--An overview.

Presently polymer nanofibers have received much attention due to their unique properties such as large surface area, high porosity, small pore size, superior mechanical properties and ease of addition of surface functionalities compared with any other material. Nanofibers particularly polymeric nanofiber prepared by electrospinning process can be used as carriers for the controlled drug delivery of bioactive molecules such as cytokines, growth factors, anticancer drugs, enzymes and certain vitamins. This article presents an overview of nanofibers, various techniques involved in fabrication of nanofibers, their characterization, parameters affecting electrospinning process and their applications.

Potential pharmacokinetic interactions of therapeutic cytokines or cytokine modulators on small-molecule drugs: mechanistic understanding via studies using in vitro systems.

The potential pharmacokinetic interactions between macromolecules and small-molecule drugs have received more and more attention with the increasing development of macromolecule therapeutics. Studies have shown that cytokines can differentially modulate drug-metabolizing enzymes and transporters, which raises concerns on the potential interactions of therapeutic cytokines and cytokine modulators on the disposition of small-molecule drugs. Although many in vitro studies have been conducted to characterize the effects of cytokines on drug-metabolizing enzymes and transporters, these studies were limited to only a handful of cytokines, such as interleukin-1 (IL-1), IL-6, tumor necrosis factor-α, and interferon. It is also challenging to translate these in vitro results to in vivo. In addition, information on the impact of cytokine modulators on drug-metabolizing enzymes and transporters is rather limited. More research is needed in this area. The present review is to provide a summary of the in vitro findings on the pharmacokinetic interactions of therapeutic cytokines and cytokine modulators on small-molecule drugs. Discussion on current challenges in assessing these interactions is also included.

Are hepatic impairment studies necessary for therapeutic proteins?

OBJECTIVE: This study assessed whether trials to investigate the effect of hepatic impairment on the pharmacokinetics of therapeutic proteins (TPs), which are conducted for small molecule drugs, are necessary. METHODS: The product labeling for 91 TPs that have been approved by the US Food and Drug Administration were reviewed. A PubMed search was also conducted to identify completed studies that assessed the effect of hepatic impairment on the pharmacokinetics of TPs. Biologic License Applications were subsequently reviewed to gather further descriptions of the trials conducted in patients with hepatic impairment and data analyses. RESULTS: No dedicated pharmacokinetics trials were conducted in patients with hepatic impairment for these approved TPs, but subgroup (n = 2 [2.2%]) or population (n = 5 [5.5%]) pharmacokinetic analyses were performed for 7 TPs. The pharmacokinetics of these proteins were not affected by the hepatic dysfunction, with the exception that the clearance of drotrecogin alfa seemed 25% higher in patients with hepatic impairment than in patients without hepatic impairment; however, no dose reduction was recommended. Thus, the effect of hepatic impairment on the pharmacokinetics of TPs is unclear based on the limited analyses completed to date. CONCLUSIONS: A dedicated pharmacokinetics trial for TPs in patients with hepatic impairment is not necessary. Recognizing that the data are very limited, it would be important to continue collecting pharmacokinetic data of TP in patients with hepatic impairment and using population pharmacokinetic analyses to evaluate the effect of hepatic impairment on the pharmacokinetics of TP.

Subfornical organ mediates sympathetic and hemodynamic responses to blood-borne proinflammatory cytokines.

Proinflammatory cytokines play an important role in regulating autonomic and cardiovascular function in hypertension and heart failure. Peripherally administered proinflammatory cytokines, such as tumor necrosis factor-α (TNF-α) and interleukin-1ß (IL-1ß), act on the brain to increase blood pressure, heart rate, and sympathetic nerve activity. These molecules are too large to penetrate the blood-brain barrier, and so the mechanisms by which they elicit these responses remain unknown. We tested the hypothesis that the subfornical organ (SFO), a forebrain circumventricular organ that lacks a blood-brain barrier, plays a major role in mediating the sympathetic and hemodynamic responses to circulating proinflammatory cytokines. Intracarotid artery injection of TNF-α (200 ng) or IL-1ß (200 ng) dramatically increased mean blood pressure, heart rate, and renal sympathetic nerve activity in rats with sham lesions of the SFO (SFO-s). These excitatory responses to intracarotid artery TNF-α and IL-1ß were significantly attenuated in SFO-lesioned (SFO-x) rats. Similarly, the increases in mean blood pressure, heart rate, and renal sympathetic nerve activity in response to intravenous injections of TNF-α (500 ng) or IL-1ß (500 ng) in SFO-s rats were significantly reduced in the SFO-x rats. Immunofluorescent staining revealed a dense distribution of the p55 TNF-α receptor and the IL-1 receptor accessory protein, a subunit of the IL-1 receptor, in the SFO. These data suggest that SFO is a predominant site in the brain at which circulating proinflammatory cytokines act to elicit cardiovascular and sympathetic responses.

Influencia de la dieta sobre las citoquinas antiinflamatorias en la enfermedad de Crohn / Influence of diet on the anti-inflammatory cytokines in Crohn’s disease

Fundamentos: La enfermedad de Crohn es una patología digestiva que cursa con inflamación en pacientes genéticamente susceptibles. Dada la relación entre la enfermedad de Crohn, microbiota y dieta, se ha revisado el rol de los alimentos funcionales para modificar la flora microbiana y/o promover la síntesis de citocinas antiinflamatorias y disminuir la inflamación, postulando que una dieta adecuada podría ser utilizada para beneficiar el estado de salud de esta población. Métodos: Se realizó una extensa búsqueda de publicaciones científicas en las siguientes bases de datos electrónicas especializadas: NBCI, Elsevier Journal, Scielo España, Scirus, y Science Direct. Resultados: Estudios realizados con probióticos han demostrado no ser eficaces porque la población bacteriana intestinal está comprometida. En cambio, se ha observado que la nutrición enteral y la administración de determinados nutraceúticos como péptidos bioactivos de pescado, calostro y suero bovino, Boswella serrata, calcio, cúrcuma y complejos multivitamínicos puede ser la primera terapia en la enfermedad de Crohn por su capacidad de reparación de la mucosa y reducción de la inflamación. Conclusiones: Se requieren más estudios clínicos en humanos para esclarecer el posible efecto que tienen los alimentos funcionales en el control y desarrollo de la enfermedad de Crohn (AU)

Background: Crohn’s disease is a digestive illness that causes inflammation in genetically susceptible patients. Given the relationship between Crohn’s disease, microbiota and diet, theintake of functional foods to promote the modification of microbiota profile and /or the synthesis of antiinflammatory cytokines and thus decrease the effects of inflammation has been evaluated, under de assumption that a proper diet could be used as a means to improve the health of this population group. Methods: An extensive research in scientific publications was performed in the following electronic specialized databases: NBCI, Elsevier Journal, Scielo Spain, Scirus, and Science Direct. Results: Several studies have shown that probiotics are not as effective as expected because of intestinal bacteria population in compromised. However, it has been observed that enteral nutrition and the administration of certain nutraceuticals components such as fish bioactive peptides, colostrum and bovine serum, as well as Boswella serrata, calcium, curcuma and multivitamins can be the first therapy in Crohn’s disease since they induce mucosal reparation and reduce inflammation. Conclusions: More clinical studies in humans are required to clarify the possible effect of functional foods on the control and development of Crohn’s disease (AU)

La activación de receptor activado por proliferadores peroxisómicos Beta/ Delta mejora la resistencia a insulina inducida porIL-6 en células hepáticas / No disponible

Introducción: La resistencia a la insulina precede y predice la presencia de diabetes mellitustipo 2, condición que supone un notable incremento del riesgo cardiovascular. La interleucina-6es uno de los mediadores que relacionan la inflamación crónica observada en estados de obesidad con la resistencia a la insulina a través de la activación de STAT3 (signal transducer and activator of transcription 3), con el consiguiente aumento de SOCS3 (suppressor of cytokinesignaling 3) en el hígado. El objetivo de este estudio ha sido evaluar si un agonista del receptor activado por proliferadores peroxisómicos (PPAR) / , GW501516, es capaz de evitar la activación de la vía de senalización IL-6/STAT3/SOCS3 y la resistencia a la insulina en células hepáticas. Material y métodos: Células HepG2 humanas se estimularon con IL-6 (20 ng/ml) en presenciao en ausencia de GW501516 (10 M). También analizamos el hígado de ratones salvajes y con deficiencia PPAR / . Los niveles de ARNm y proteínas se analizaron mediante las técnicas deRT-PCR y Western-Blot, respectivamente. Resultados: GW501516 evitó la fosforilación en Tyr705 y en Ser727 de STAT3 y el aumento deSOCS3 inducidas por la IL-6. Asimismo, el tratamiento con este fármaco evitó la activación por la IL-6 de la ERK1/2, una serina-treonina cinasa implicada en la fosforilación de STAT3 enSer727. Cabe destacar que el hígado de ratones deficientes en PPAR / mostró un aumento (..) (AU)

Introduction: Insulin resistance precedes and predicts the development of type 2 diabetes mellitus, a disease which increases the risk of cardiovascular events. Interleukin (IL)-6 is one of the mediators linking obesity-derived chronic inflammation with insulin resistance through activation of STAT3, with subsequent up regulation of suppressor of cytokine signaling 3 (SOCS3)in liver. The aim of this study was to evaluate whether peroxisome proliferator-activated receptor (PPAR) / agonist GW501516 prevented activation of the IL-6/STAT3/SOCS3 pathway and insulin resistance in hepatic cells. Material and methods: Human HepG2 cells were stimulated for 10 min with IL-6 (20 ng/mL)in the presence or in the absence of 10 M GW501516, then mRNA and protein levels were analyzed by RT-PCR or Western-Blot, respectively. In addition, we also analyzed protein levels from PPAR / null mice and wild-type mice livers. Results: GW501516 prevented IL-6-induced STAT3 phosphorylation on Tyr705 and Ser727 and avoided the increase in SOCS3 caused by this cytokine. In addition, this drug also preventedIL-6-dependent ERK1/2 phosphorylation, a serine-threonine protein kinase involved in STAT3phosphorylation on Ser727. Interestingly, livers from PPAR / null mice showed increased phosphorylations on Tyr 705 and Ser727 of STAT3 as well as phosphorylated ERK1/2 levels. Finally, all (..) (AU)

Clinical pharmacology considerations in biologics development.

Biologics, including monoclonal antibodies (mAbs) and other therapeutic proteins such as cytokines and growth hormones, have unique characteristics compared to small molecules. This paper starts from an overview of the pharmacokinetics (PK) of biologics from a mechanistic perspective, the determination of a starting dose for first-in-human (FIH) studies, and dosing regimen optimisation for phase II/III clinical trials. Subsequently, typical clinical pharmacology issues along the corresponding pathways for biologics development are summarised, including drug-drug interactions, QTc prolongation, immunogenicity, and studies in specific populations. The relationships between the molecular structure of biologics, their pharmacokinetic and pharmacodynamic characteristics, and the corresponding clinical pharmacology strategies are summarised and depicted in a schematic diagram.

Autocrine modulation of glucose transporter SGLT2 by IL-6 and TNF-alpha in LLC-PK1 cells

We determined in cultured kidney epithelial cells (LLC-PK1) the effects of high glucose, interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNF-alpha) on mRNA and protein expression of the renal glucose transporters SGLT1 and SGLT2. Cultured monolayers were incubated with similar concentrations of IL-6 and (..) (AU)

Immunocytokines: a novel class of potent armed antibodies.

Several cytokines have been investigated in clinical trials, based on their potent therapeutic activity observed in animal models of cancer and other diseases. However, substantial toxicities are often reported at low doses, thus preventing escalation to therapeutically active regimens. The use of recombinant antibodies or antibody fragments as delivery vehicles promises to enhance greatly the therapeutic index of pro-inflammatory and anti-inflammatory cytokines. This review surveys preclinical and clinical data published in the field of antibody-cytokine fusions (immunocytokines). Molecular determinants (such as molecular format, valence, target antigen), which crucially contribute to immunocytokine performance in vivo, are discussed in the article, as well as recent trends for the combined use of this novel class of biopharmaceuticals with other therapeutic agents.

Querying quantitative logic models (Q2LM) to study intracellular signaling networks and cell-cytokine interactions.

Mathematical models have substantially improved our ability to predict the response of a complex biological system to perturbation, but their use is typically limited by difficulties in specifying model topology and parameter values. Additionally, incorporating entities across different biological scales ranging from molecular to organismal in the same model is not trivial. Here, we present a framework called "querying quantitative logic models" (Q2LM) for building and asking questions of constrained fuzzy logic (cFL) models. cFL is a recently developed modeling formalism that uses logic gates to describe influences among entities, with transfer functions to describe quantitative dependencies. Q2LM does not rely on dedicated data to train the parameters of the transfer functions, and it permits straight-forward incorporation of entities at multiple biological scales. The Q2LM framework can be employed to ask questions such as: Which therapeutic perturbations accomplish a designated goal, and under what environmental conditions will these perturbations be effective? We demonstrate the utility of this framework for generating testable hypotheses in two examples: (i) a intracellular signaling network model; and (ii) a model for pharmacokinetics and pharmacodynamics of cell-cytokine interactions; in the latter, we validate hypotheses concerning molecular design of granulocyte colony stimulating factor.