A study of the practices and procedures in the kindergartens of Massachusetts,

Thesis (M.A.)--Boston Universit

Amplicon-Dependent CCNE1 Expression Is Critical for Clonogenic Survival after Cisplatin Treatment and Is Correlated with 20q11 Gain in Ovarian Cancer

Genomic amplification of 19q12 occurs in several cancer types including ovarian cancer where it is associated with primary treatment failure. We systematically attenuated expression of genes within the minimally defined 19q12 region in ovarian cell lines using short-interfering RNAs (siRNA) to identify driver oncogene(s) within the amplicon. Knockdown of CCNE1 resulted in G1/S phase arrest, reduced cell viability and apoptosis only in amplification-carrying cells. Although CCNE1 knockdown increased cisplatin resistance in short-term assays, clonogenic survival was inhibited after treatment. Gain of 20q11 was highly correlated with 19q12 amplification and spanned a 2.5 Mb region including TPX2, a centromeric protein required for mitotic spindle function. Expression of TPX2 was highly correlated with gene amplification and with CCNE1 expression in primary tumors. siRNA inhibition of TPX2 reduced cell viability but this effect was not amplicon-dependent. These findings demonstrate that CCNE1 is a key driver in the 19q12 amplicon required for survival and clonogenicity in cells with locus amplification. Co-amplification at 19q12 and 20q11 implies the presence of a cooperative mutational network. These observations have implications for the application of targeted therapies in CCNE1 dependent ovarian cancers

Contraindications of sentinel lymph node biopsy: Áre there any really?

BACKGROUND: One of the most exciting and talked about new surgical techniques in breast cancer surgery is the sentinel lymph node biopsy. It is an alternative procedure to standard axillary lymph node dissection, which makes possible less invasive surgery and side effects for patients with early breast cancer that wouldn't benefit further from axillary lymph node clearance. Sentinel lymph node biopsy helps to accurately evaluate the status of the axilla and the extent of disease, but also determines appropriate adjuvant treatment and long-term follow-up. However, like all surgical procedures, the sentinel lymph node biopsy is not appropriate for each and every patient. METHODS: In this article we review the absolute and relative contraindications of the procedure in respect to clinically positive axilla, neoadjuvant therapy, tumor size, multicentric and multifocal disease, in situ carcinoma, pregnancy, age, body-mass index, allergies to dye and/or radio colloid and prior breast and/or axillary surgery. RESULTS: Certain conditions involving host factors and tumor biologic characteristics may have a negative impact on the success rate and accuracy of the procedure. The overall fraction of patients unsuitable or with multiple risk factors that may compromise the success of the sentinel lymph node biopsy, is very small. Nevertheless, these patients need to be successfully identified, appropriately advised and cautioned, and so do the surgeons that perform the procedure. CONCLUSION: When performed by an experienced multi-disciplinary team, the SLNB is a highly effective and accurate alternative to standard level I and II axillary clearance in the vast majority of patients with early breast cancer

The X-Men and stereotypes of dominant and subordinate groups /by Grant George Bedrosian.

This study examined the use of stereotypes in the graphic novel X-Men: Messiah Complex. Taking both quantitative and qualitative approaches to analyzing content, the author found that the X-Men characters that appeared most frequently and most often in positions of leadership were White heterosexual males. Female and racial minority X-Men characters appeared least frequently and most often as followers. Sexual minorities did not appear at all. These patterns of representation are reflective of patterns found in other media, which tend to focus on and emphasize the positive qualities of members of dominant groups while ignoring or negatively portraying members of subordinate ones. This research discovered that racial and religious themes often strengthened or provided a backdrop for these stereotypes

Dendritic Cell Depletion Exacerbates Acetaminophen Hepatotoxicity

Acetaminophen (APAP) overdose is one of the most frequent causes of acute liver failure in the United States and is primarily mediated by toxic metabolites which accumulate in the liver upon depletion of glutathione stores. However, cells of the innate immune system, including NK cells, neutrophils, and Kupffer cells, have also been implicated in the centrilobular liver necrosis associated with APAP. We have recently shown that dendritic cells (DC) regulate intra-hepatic inflammation in chronic liver disease and, therefore, postulated that DC may also modulate the hepatotoxic effects of APAP. We found that DC immune-phenotype was markedly altered after APAP challenge. In particular, liver DC expressed higher MHC II, co-stimulatory molecules, and Toll-like Receptors, and produced higher IL-6, MCP-1, and TNF-α. Conversely, spleen DC were unaltered. However, APAP-induced centrilobular necrosis, and its associated mortality, was markedly exacerbated upon DC depletion. Conversely, endogenous DC expansion using FMS-like tyrosine kinase 3 ligand (Flt3L) protected mice from APAP injury. Our mechanistic studies showed that APAP liver DC had the particular capacity to prevent NK cell activation and induced neutrophil apoptosis. Nevertheless, the exacerbated hepatic injury in DC depleted mice challenged with APAP was independent of NK cells and neutrophils or numerous immune modulatory cytokines and chemokines. Conclusions: Taken together, these data indicate that liver DC protect against APAP toxicity while their depletion is associated with exacerbated hepatotoxicity

MyD88 inhibition amplifies dendritic cell capacity to promote pancreatic carcinogenesis via Th2 cells

The greatest risk factor for the development of pancreatic cancer is chronic pancreatitis. As such, the transition of chronic pancreatic fibro-inflammatory disease to neoplasia represents a quintessential clinical example in the paradigm of inflammation leading to cancer. However, the cellular and molecular links bridging these entities are not well understood. Since dendritic cells (DC) have recently emerged as initiators of inflammation, we postulated that DC are central in this pancreas-specific process. We found that DC exacerbate pancreatic fibro-inflammation, organ destruction, and accelerate carcinogenesis, even in the absence of an endogenous mutation, by inducing pancreatic antigen-restricted Th2 cells. Furthermore, blockade of MyD88, an adaptor protein central to inflammation and carcinogenesis in other contexts, paradoxically accelerates inflammation and transformation in the pancreas by augmenting the DC-Th2 axis. Our findings are the first to suggest novel pathways that implicate DC and the inhibition of MyD88 in pancreatic inflammation and neoplastic transformation

In liver fibrosis, dendritic cells govern hepatic inflammation in mice via TNF-α

Hepatic fibrosis occurs during most chronic liver diseases and is driven by inflammatory responses to injured tissue. Because DCs are central to modulating liver immunity, we postulated that altered DC function contributes to immunologic changes in hepatic fibrosis and affects the pathologic inflammatory milieu within the fibrotic liver. Using mouse models, we determined the contribution of DCs to altered hepatic immunity in fibrosis and investigated the role of DCs in modulating the inflammatory environment within the fibrotic liver. We found that DC depletion completely abrogated the elevated levels of many inflammatory mediators that are produced in the fibrotic liver. DCs represented approximately 25% of the fibrotic hepatic leukocytes and showed an elevated CD11b+CD8– fraction, a lower B220+ plasmacytoid fraction, and increased expression of MHC II and CD40. Moreover, after liver injury, DCs gained a marked capacity to induce hepatic stellate cells, NK cells, and T cells to mediate inflammation, proliferation, and production of potent immune responses. The proinflammatory and immunogenic effects of fibrotic DCs were contingent on their production of TNF-α. Therefore, modulating DC function may be an attractive approach to experimental therapeutics in fibro-inflammatory liver disease