Many colorectal tumors lose or downregulate cell surface expression of MHC class I molecules conferring resistance to T-cellmediated attack. It has been suggested that this phenomenon is due to in vivo immune-tumor interactions. However, evidence of the impact of MHC class I loss on outcomes from colorectal cancer is scarce. In our study of more than 450 colorectal cancers in tissue microarray format, we have shown that both high levels of MHC class I expression and absent MHC class I expression are associated with similar disease-specific survival times, possibly due to natural killer cell-mediated clearance of MHC class I-negative tumor cells. However, tumors with low level expression of MHC class I were found to confer a significantly poorer prognosis, retaining independent significance on multivariate analysis. The existence of these poor prognosis tumors, which may avoid both NK-and T-cell-mediated immune surveillance, has important implications for the design of immunotherapeutic strategies in colorectal cancer. ' 2005 Wiley-Liss, Inc.
Tumours can be recognised by CTL and NK cells. CTL recognition depends on expression of MHC Class I loaded with peptides from tumour antigens. In contrast, loss of MHC Class I results in NK activation. In our study a large set of samples from patients with primary operable invasive breast cancer was evaluated for the expression of MHC Class I heavy and light by immunohistochemical staining of 439 breast carcinomas in a tissue microarray.
The realization of targeted cancer therapy has driven the need to improve selection of patients with colorectal cancer for adjuvant therapy, leading to a search for potential new prognostic markers. There is accumulating evidence that immunosurveillance acts as an extrinsic tumor suppressor. As genetic instability is an early event in colorectal cancer, this can lead to altered expression of molecules conferring resistance to immune attack. Hence, molecules up or downregulated in this process may impact on patient survival. In our study, 449 colorectal tumors were screened for expression of the stress-related protein MICA, which functions as a ligand for the NKG2D receptor and whose expression confers susceptibility to both T-and NK-cell attack. Intensity of MICA expression was quantified using automated image analysis and MICA expression showed no correlation with conventional clinicopathological variables. In contrast, survival analysis showed a significant correlation between higher levels of MICA expression and improved disease-specific survival, with independent prognostic significance in multivariate analysis. Thus, patients with low levels of MICA and a poor prognosis may be good candidates for aggressive chemotherapy. In contrast, patients with high expression of MICA may be candidates for the antibody therapies, as they should be susceptible to NK killing by antibody dependent cellular cytotoxicity. ' 2005 Wiley-Liss, Inc.
The diagnosis of cryptogenic liver disease is made when after extensive evaluations, recognizable etiologies of chronic liver disease are excluded. In this study, the presence of hepatitis C virus (HCV) RNA was tested in peripheral blood mononuclear cells (PBMCs) taken from Iranian patients who although were found negative for plasma HCV RNA and anti-HCV antibodies, suffered from chronic liver disease of unknown etiology. From September 2007 to March 2010, 69 patients from Tehran with chronic liver disease of unknown etiology who were referred to our center were enrolled in the present study. PBMCs were isolated from 10 mL peripheral blood specimens. HCV-RNA status was tested in plasma and PBMCs samples by reverse-transcription polymerase chain reaction (RT-PCR). HCV-RNA was detected in HCV-positive PBMCs specimens by RT-PCR method. HCV genotypes were subsequently analyzed in HCV-positive samples using restriction fragment length polymorphism (RFLP) assay; then HCV genotypes were confirmed by sequencing of 5' non-coding fragments after cloning PCR products into pJET1.2/blunt cloning vector. HCV-RNA was detected in PBMCs specimens belonging to 7 (10%) out of 69 patients. Genotyping of the HCV-RNA isolated from PBMCs showed that 3 (43%) patients with occult HCV infection had genotype 1b, 2 (29%) had genotype 1a, and another 2 (29%) had genotype 3a. The results of this study suggest that patients with chronic liver disease of unknown etiology may have occult HCV infection in the absence of anti-HCV antibodies and plasma HCV-RNA. It has been suggested that in the absence of liver biopsy specimens, analysis of PBMC sample for HCV-RNA would be informative.
Abstractp62 is a multi-functional protein, which induces nuclear factor-kB (NFkB) activation through multiple upstream signalling pathways, including those triggered by the epidermal growth factor (EGF) family of receptors. We hypothesised that p62 overexpression increased EGF family receptor expression and worse outcome in breast cancer would be associated. We stained a tissue microarray representing 523 breast cancers using a commercial guinea pig anti-human p62 sera and standard immunohistochemical methods to address this. Out of nZ106 tumours, 20.3% stained positively. p62 expression correlated with grade (PZ0.010) and distant metastasis (PZ0.04) and EGF receptor (EGFR) (PZ0.012), HER2 (PZ0.016), HER3 (PZ0.007) and HER4 (0.002) expressions. Though expression correlated with reduced 5-year survival (58.5 vs 73.6%), there was no association with overall disease specific survival. p62 expression may represent a marker of activation of the NFkB pathway.
Severe burn injuries can lead to delays in healing and devastating scar formation. Attempts have been made to develop a suitable skin substitute for the scarless healing of such skin wounds. Currently, there is no effective strategy for completely scarless healing after the thermal injuries. In our recent work, we fabricated and evaluated a 3D protein-based artificial skin made from decellularized human amniotic membrane (AM) and electrospun nanofibrous silk fibroin (ESF) in vitro. We also characterized both biophysical and cell culture investigation to establish in vitro performance of the developed bilayer scaffolds. In this report, we evaluate the appropriate utility of this fabricated bilayered artificial skin in vivo with particular emphasis on healing and scar formation due to the biochemical and biomechanical complexity of the skin. For this work, AM and AM/ESF membranes alone or seeded with adipose-tissue-derived mesenchymal stem cells (AT-MSCs) are implanted on full-thickness burn wounds in mice. The healing efficacy and scar formation are evaluated at 7, 14, and 28 days post-implantation in vivo. Our data reveal that ESF accelerates the wound-healing process through the early recruitment of inflammatory cells such as macrophages into the defective site as well as the up-regulation of angiogenic factors from the AT-MSCs and the facilitation of the remodeling phase. In vivo application of the prepared AM/ESF membrane seeded with the AT-MSCs reduces significantly the post-burn scars. The in vivo data suggest that the potential applications of the AM/ESF bilayered artificial skin may be considered a clinical translational product with stem cells to guide the scarless healing of severe burn injuries.
Introduction There is sufficient evidence that blood group related Lewis antigens are tumour-associated molecules. The Lewis y and Lewis b antigens are complex carbohydrates that are over-expressed by breast, lung, colon and ovarian cancers. The SC101 mAb is a unique Lewis y/b binding antibody that binds to native and extended Lewis y and Lewis b haptens, displaying no cross reactivity with H type 1, H type 2, Lewis x or normal blood group antigens.
Identification of immunogenic tumor antigens that are efficiently processed and delivered by dendritic cells to prime the immune system and to induce an appropriate immune response is a research hotspot in the field of cancer vaccine development. High biosafety is an additional demand. Tumor-derived exosomes (TEXs) are nanosized lipid bilayer encapsulated vesicles that shuttle bioactive information to the tumor microenvironment facilitating tumor progression. However, accumulating evidence points toward the capacity of TEXs to efficiently stimulate immune responses against tumors provided they are appropriately administered. After briefly describing the function of exosomes in cancer biology and their communication with immune cells, we summarize in this review in vitro and preclinical studies eliciting the potency of TEXs in inducing effective anti-tumor responses and recently modified strategies further improving TEX-vaccination efficacy. We interpret the available data as TEXs becoming a lead in cancer vaccination based on tumor antigen-selective high immunogenicity.
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