The pathogenesis of spinal cord injury (SCI) remains poorly understood and treatment remains limited. Emerging evidence indicates that post-SCI inflammation is severe but the role of reactive astrogliosis not well understood given its implication in ongoing inflammation as damaging or neuroprotective. We have completed an extensive systematic study with MRI, histopathology, proteomics and ELISA analyses designed to further define the severe protracted and damaging inflammation after SCI in a rat model. We have identified 3 distinct phases of SCI: acute (first 2 days), inflammatory (starting day 3) and resolution (>3 months) in 16 weeks follow up. Actively phagocytizing, CD68 + /CD163macrophages infiltrate myelin-rich necrotic areas converting them into cavities of injury (COI) when deep in the spinal cord. Alternatively, superficial SCI areas are infiltrated by granulomatous tissue, or arachnoiditis where glial cells are obliterated. In the COI, CD68+/CD163macrophage numbers reach a maximum in the first 4 weeks and then decline. Myelin phagocytosis is present at 16 weeks indicating ongoing inflammatory damage. The COI and arachnoiditis are defined by a wall of progressively hypertrophied astrocytes. MR imaging indicates persistent spinal cord edema that is linked to the severity of inflammation. Microhemorrhages in the spinal cord around the lesion are eliminated, presumably by reactive astrocytes within the first week post-injury. Acutely increased levels of TNF-alpha, IL-1beta, IFN-gamma and other proinflammatory cytokines, chemokines and proteases decrease and anti-inflammatory cytokines increase in later phases. In this study we elucidated a number of fundamental mechanisms in pathogenesis of SCI and have demonstrated a close association between progressive astrogliosis and reduction in the severity of inflammation.
Spinal cord injury (SCI)-initiated inflammation was treated with anti-inflammatory reagents. We compared local spinal cord or intraperitoneal infusion of two Myxoma virus derived immune modulating proteins, Serp-1 and M-T7, with dexamethasone (DEX). Hemorrhage and necrosis after SCI initiate a complex pathogenesis dominated by early, severe and highly destructive inflammatory macrophage infiltration. We examined sustained, 7-day, subdural infusion of either M-T7, a chemokine modulator or Serp-1, a plasminogen activator and factor inhibitor. Mature male rats had epidural balloon crush SCI and sustained subdural infusion of Serp-1, M-T7, DEX or saline for 7 days via the osmotic pump. A separate group of rats with SCI had intra-peritoneal infusion. Clinical evaluation included endpoint monitoring with body weight, hemorrhagic cystitis and bilateral toe pinch response. Sections of the spinal cord were analyzed histologically and macrophage numbers counted by standardized protocol in the cavity of injury (COI). While the rats administered DEX demonstrated substantial body weight loss, dehydration and dermal atrophy consistent with steroid toxicity, rats infused with Serp-1 and M-T7 had no toxicity. Serp-1 improved withdrawal responses. Subdural infusion of Serp-1, M-T7 and DEX significantly reduced numbers of phagocytic, CD68-positive macrophages. With intraperitoneal infusion only M-T7 reduced macrophage counts, Serp-1 showed only a trend. Local infusion of highly active immune modulating proteins; Serp-1 and M-T7, targeting serine protease and chemokine pathways demonstrated excellent potential for neuroprotection after severe SCI in a rat model, without adverse side effects. Sustained subdural infusion offers an alternative route of administration for treatment of SCI.
Background/Aim: Ovarian cancer is the most frequent cause of death in women among gynecological cancers in Poland. MMP-2 and MMP-9 are frequently dysregulated in cancers and they are considered as potential biomarkers. Our goal was to assess the associations between MMP-2 and MMP-9 mRNA expression, clinicopathological parameters and patients' response to chemotherapy. Materials and Methods: We evaluated MMP-2 and MMP-9 mRNA expression in epithelial ovarian cancer (EOC) tissues from 44 untreated patients, four ovarian cancer cell lines, and human skin fibroblasts (HSF). The expression of both MMPs was estimated using qPCR. Results: MMP-2 expression was significantly higher (p=0.020) in EOCs sensitive to chemotherapy compared to resistant and refractory tumors. The highest MMP-2 expression was found in HSF and MMP-9 expression was the highest in EOCs (p<0.001). The expression of neither MMP was significantly associated with patients' overall survival (OS). Conclusion: MMP-2 may be engaged in early stages of ovarian carcinogenesis. MMP-2 expression in EOCs may discriminate patients with a favorable response to first line chemotherapy.
The molecular bases of miR-182 deregulation in epithelial ovarian cancers (EOCs) remain unknown and its diagnostic or prognostic role in EOCs is still unclear. We performed miR-182 expression analysis using a microarray approach and real-time PCR (qPCR). We also used array comparative genomic hybridization and methylated DNA immunoprecipitation to study copy number changes and methylation aberrations within coding locus/promoter sequences of miR-182 in EOC tissues, respectively. We have found that miR-182 expression is significantly increased in EOC (P < 0.00001) and that higher miR-182 expression in EOC is linked with significantly shorter overall survival (P = 0.026). The methylation of miR-182 promoter was significantly associated with lower miR-182 expression in EOC tissues (P = 0.045). miR-182 over-expression is connected with copy number (CN) gains of this miRNA coding sequences in EOC (P = 0.002), and the number of PRDM5 copies is significantly and inversely correlated with miR-182 expression evaluated by qPCR (R = -0.615, P = 0.009). We conclude that the aberrant miR-182 expression in EOC may be due to CN gains within its coding locus. The miR-182 promoter is rarely methylated in EOC, and its methylation status is associated with lower miR-182 expression. Deletion of the PRDM5 locus may play a supportive role in miR-182 overexpression in EOC. miR-182 is an unfavorable prognostic factor in EOC. © 2016 Wiley Periodicals, Inc.
Lung carcinoma, especially in its most commonly diagnosed non-small cell histological form, is a challenge to diagnose and treat worldwide, due to the prognosis in patients with this type of cancer being poor and mortality rates being high. However, a number of patients with this type of lung carcinoma exhibit a longer than average overall survival. The specific molecular background of non-small-cell lung cancer that favors longer survival has not yet been determined. The aim of the current study was to review articles published in the years 2017-2018 and create a list of the most important and strongest non-conventional factors that could be used in the future assessment of the prognosis of patients with adenocarcinoma and squamous cell carcinoma of the lung who cannot undergo current targeted therapy. Analysis identified multiple prognostic factors in non-small cell lung carcinoma, including tumor mutational burden, which was revealed to be independent of the tumor stage or grade as well as other factors, including age, sex or targeted therapy effects. The selected molecular factors exhibit the potential to be used in the treatment of patients with specific problematic lung cancer, and may contribute to setting recommendations for the diagnosis, prognosis and treatment of individual patients with lung cancer.
27The pathogenesis of spinal cord injury (SCI) remains poorly understood and treatment remains 28 limited. Emerging evidence indicates the severity of post-SCI inflammation and an ongoing 29 controversy in the roles of astrocytes with studies identifying astrocytes as associated both with 30 ongoing inflammation and damage as well as potentially having a protective role. We have 31 completed an extensive systematic study with MRI, histopathology, proteomics and ELISA 32 analyses designed to further define the severe protracted and damaging inflammation after SCI in 33 a rat model. We have identified 3 distinct phases of SCI: acute (first 2 days), inflammatory (starting 34 day 3) and resolution (>3 months) in 16 weeks follow up. Actively phagocytizing, CD68 + /CD163 -35 macrophages infiltrate myelin-rich necrotic areas converting them into cavities of injury (COI) 36 when deep in the spinal cord. Alternatively, superficial SCI areas are infiltrated by granulomatous 37 tissue, or arachnoiditis where glial cells are obliterated. In the COI, CD68+/CD163macrophage 38 numbers reach a maximum in the first 4 weeks and then decline. Myelin phagocytosis is present 39 at 16 weeks indicating ongoing inflammatory damage. The COI and arachnoiditis are defined by 40 a wall of progressively hypertrophied astrocytes. MR imaging indicates persistent spinal cord 41 edema that is linked to the severity of inflammation. Microhemorrhages in the spinal cord around 42 the lesion are eliminated, presumably by reactive astrocytes within the first week post-injury. 43Acutely increased levels of TNF-, IL-1, IFN- and other pro-inflammatory cytokines, 44 chemokines and proteases decrease and anti-inflammatory cytokines increase in later phases. In 45 this study we elucidated a number of fundamental mechanisms in pathogenesis of SCI and have 46 demonstrated a close association between progressive astrogliosis and reduction in the severity of 47 inflammation. 48 4 49 50 KEYWORDS 51 Neurotrauma inflammation, cavity of injury, arachnoiditis, M1 macrophage, astrogliosis. 5 52 53Spinal cord injury (SCI) is a leading cause of long term morbidity after motor vehicle 54 accidents or trauma in combat, with no clinically standardized or substantially effective treatment. 55Effective therapeutics have remained limited due to an incomplete understanding of the 56 pathogenesis of SCI and thus identified effective therapeutic targets while the underlying and 57 persistent inflammatory damage after SCI remains poorly characterized. The role of invasive 58 inflammatory cells and specifically astrogliosis in the ongoing damage after SCI is not fully 59 defined with studies supporting both a role in SCI damage [1,2] as well as a proposed potential 60 protective role for astrocytes [3]. We have completed an extensive analysis with MRI, 61 histochemistry, proteomics and ELISA in a rat model of SCI in order to further define the 62 pathological changes that occur after SCI. 63 SCI initiates hemorrhage and ischemia, free radical release, severe inflammation,...
was nearly statistically significant whereas that of p21 WAF1/CIP1 showed no such correlation. Moreover, high expression levels of TP53 and c-Myc genes were found to be closely associated with more aggressive forms of the disease requiring earlier therapy.
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