Changes in the co-expressions of interleukin 29 (IL-29), IFN-inducible protein 10 (IP-10) and monokine induced by IFNγ (MIG) genes in chronic hepatitis C Egyptian patients untreated and treated with DAAs.

Direct acting antiviral agents (DAAs) are a group of antiviral drugs that inhibit specific non-structural proteins of the virus and disrupt viral replication and infection. DAAs regimens for hepatitis C virus (HCV) infection provide a particular event to tackle mechanistic intracellular relationships between the innate immunity and HCV, potentially providing perceptions about the rate of the viral replication and complex decay. Interleukin 29 (IL-29) prevents the replication of HCV. IFN-inducible protein 10 (IP-10) plays a significant role in the pathogenesis of HCV infection. MIG/CXCL9 are produced by inflammatory and stromal cells such as hepatocytes following either stimulation by interferon lambda (IFNγ) or viral infection. This study aimed to evaluate the co-expression of IL-29, IP-10 and MIG in peripheral blood mononuclear cells (PBMCs) from untreated and treated chronic HCV patients with DAAs. This study included group of twenty naïve HCV patients, group of twenty sustained viral response (SVR) patients and a control group that consisted of 10 healthy subjects. All subjects were tested for liver enzymes, serum albumin level, total serum bilirubin, platelet count, prothrombin activity and viral load. Relative gene expression of IL-29, IP-10, and MIG in PBMCs from all subjects was determined using real time PCR. The mean value of IL-29, IP-10 and MIG gene expression significantly increased in both naïve HCV and SVR groups of patients as compared to normal subjects. The corresponding value was significantly lower in patients with SVR compared to naïve HCV patients. Infection with HCV significantly trigged the co-expression of IL-29, IP-10, and CXCL9 (MIG) genes in PBMCs of chronic hepatitis C patients and significantly down-regulated in those who achieved SVR after successful DAAs therapy. Keywords: IP10; MIG; IL29; HCV; DAAs; gene expression.

Macrophage inflammatory protein-2 contributes to liver resection-induced acceleration of hepatic metastatic tumor growth.

AIM: To study the role of macrophage inflammatory protein (MIP)-2 in liver resection-induced acceleration of tumor growth in a mouse model of hepatic metastasis. METHODS: After a 50% hepatectomy, 1x10(5) CT26.WT cells were implanted into the left liver lobe of syngeneic balb/c mice (PHx). Additional animals were treated with a monoclonal antibody (MAB452) neutralizing MIP-2 (PHx+mAB). Non-resected and non-mAB-treated mice (Con) served as controls. After 7 d, tumor angiogenesis and microcirculation as well as cell proliferation, tumor growth, and CXCR-2 expression were analyzed using intravital fluorescence microscopy, histology, immunohistochemistry, and flow cytometry. RESULTS: Partial hepatectomy increased (P<0.05) the expression of the MIP-2 receptor CXCR-2 on tumor cells when compared with non-resected controls, and markedly accelerated (P<0.05) angiogenesis and metastatic tumor growth. Neutralization of MIP-2 by MAB452 treatment significantly (P<0.05) depressed CXCR-2 expression. Further, the blockade of MIP-2 reduced the angiogenic response (P<0.05) and inhibited tumor growth (P<0.05). Of interest, liver resection-induced hepatocyte proliferation was not effected by anti-MIP-2 treatment. CONCLUSION: MIP-2 significantly contributes to liver resection-induced acceleration of colorectal CT26.WT hepatic metastasis growth.

Respuesta inflamatoria sistémica: definiciones, marcadores inflamatorios y posibilidades terapéuticas / Systemic inflammatory response: definitions, inflammatory markers and therapeutic possibilities

Introducción. Se analizan las definiciones y las teorías fisiopatológicas que se han elaborado para explicar la evolución del síndrome inflamatorio hacia la disfunción multisistémica, analizando el valor predictivo de los diferentes mediadores y de los cambios metabólicos. Tras revisar las características del síndrome inflamatorio se recogen los diferentes intentos terapéuticos para modular el SIRS. Material. Se ha revisado la bibliografía recogida en Medline, fundamentalmente estudios clínicos realizados en pacientes críticos. Resumen. Se describen tres síndromes (SIRS, CARS y MARS) que pueden configurar la respuesta inflamatoria. La evolución hacia la disfunción multisistémica es explicada por diversas teorías, pero queda por estudiar los mecanismos que permiten la modulación y supresión de la respuesta inflamatoria. A pesar de su importancia fisiopatológica, las citocinas de inicio no son buenos marcadores pronósticos. Los marcadores de fase aguda, así como los cambios en el metabolismo lipídico y del hierro, muestran una mejor correlación con la evolución. Tras comentar que la respuesta inflamatoria no es proporcional, estructural ni universal, se revisan los diversos intentos terapéuticos que pretenden antagonizar dicha respuesta. Se comentan las tres líneas que deben regir para las investigaciones futuras (AU)

In vitro and in vivo effects of activated macrophage supernatant on distal limb wounds of ponies.

OBJECTIVE: To determine whether monokines produced by activated rabbit peritoneal macrophages can inhibit development of exuberant granulation tissue formation in distal limb wounds in ponies. DESIGN: Randomized block. ANIMALS: 5 castrated male ponies, 2 to 6 years old and weighing 140 to 190 kg. PROCEDURE: In vitro activity of cell-free rabbit peritoneal macrophage supernatant was determined after incubation of fibroblasts from the flank and the distal portion of limbs of horses and ponies. Tritiated thymidine was then added, and after reincubation, radioactivity was measured. After creation of a 4-cm2, full-thickness wound on the mid dorsal aspect of each metacarpus and metatarsus of each pony, in vivo activity of the macrophage supernatant was evaluated. Biopsy specimens were collected at random sites near a border of each wound at 4, 6, and 10 weeks after creation of the wounds. Treatment effects were evaluated on the basis of presence of exuberant granulation tissue requiring excision, number of times that excision was required, total area of the wound, epithelialized area, area of granulation bed, and histologic evaluation of the biopsy specimens. RESULTS: The macrophage supernatant effectively inhibited proliferation of equine fibroblasts in vitro. No significant in vivo treatment effects were found among the 4 treatment groups. CONCLUSION AND CLINICAL RELEVANCE: Monokines from stimulated rabbit peritoneal macrophages may have potential for improving wound healing in horses and ponies because of their effective inhibition in vitro of equine fibroblast proliferation.

Demonstration of stem cell inhibition and myeloprotective effects of SCI/rhMIP1 alpha in vivo.

The proliferative status of the stem cell compartment is thought to be controlled by both positive and negative regulators of proliferation. These regulators have obvious clinical potential in manipulating the integrity and proliferative status of the stem cell in vivo during patient treatment for neoplastic disease. We have tested the ability of the human recombinant homologue of murine macrophage inflammatory protein-1 alpha (rhMIP1 alpha) to suppress the proliferation of primitive murine progenitors in vitro and in vivo. This recombinant protein (stem cell inhibitor, similar to the human homologue of MIP 1 alpha, LD78) is active in a dose-dependent manner in vitro on CFU-S measured at day 12 and to a slightly lesser extent on the more mature CFU-S that are measured at day 8. SCI/rhMIP1 alpha is also active in vivo in two separate models of bone marrow regeneration in which the high proliferative status of the CFU-S compartment is reduced to the quiescent state with a single inoculation of SCI/rhMIP1 alpha. The inhibitory activity of the recombinant protein was then tested in a relevant therapeutic model in which the observed protection of part of the stem cell compartment is reflected by a significant improvement in the kinetics of neutrophil recovery. These results establish the feasibility of testing SCI/rhMIP1 alpha in a range of chemotherapy regimes as a preliminary to clinical trials to attempt to protect the stem cell compartment during treatment for neoplastic disease.