Automatic inference of indexing rules for MEDLINE

This paper describes the use and customization of Inductive Logic Programming (ILP) to infer indexing rules from MEDLINE citations. Preliminary results suggest this method may enhance the subheading attachment module of the Medical Text Indexer, a system for assisting MEDLINE indexers.

How Can We Stop Cancer?

Cancer is a disease that humans have been struggling to combat for centuries. It originates from the accumulation of several mutations over the life of a cell that causes it to evade cell death and multiply rapidly. It can affect any tissue in the body and can spread to other parts of the body through metastasis. Cancer comes in numerous shapes and sizes with different levels of aggression, growth speeds, and health risks. Many treatments for cancer exist today, three of the most popular being surgery, chemotherapy, and radiation therapy, which can be used in combinations with other treatments to best fight cancer. Verma et al. (2019) showed that when surgical resection is used before chemotherapy, a significant decrease in postoperative hospitalization lengths and 30-day mortality rates occurs, with correlation to trends that show increased overall survival and decreased 90-day mortality rates as well. Kim et al. (2018) approached treating surgery with a targeted therapy called anti-angiogenesis using the prodrug TA, which provided successful results in combating cancer cells by inducing apoptosis in cancer cells themselves as well as the endothelial cells that nourish tumors. This research can be taken into account by oncologists and physicians when prescribing certain treatment methods in fighting cancer, as these treatment options may have similar effects in treating and preventing other cancers, neoplastic diseases, and infections that leach nutrients from the body

Stress Activated Protein Kinase Regulation of Gene Expression in Apoptotic Neurons: A Dissertation

Summary Basic biological processes require gene expression. Tightly regulated molecules known as transcription factors mediate the expression of genes in development and disease. Signal transduction pathways, which respond to environmental cues or stressors are major regulators of the transcription factors. Use of macromolecular synthesis inhibitors in models of normal neurodevelopment and neurodegenerative cell death has led to the discovery that gene expression is required for these processes to occur (Martin et. al.,(1988), J Cell Biol 106p829). To date, however, the identities of very few of the genes required in these events have been revealed. Hence, the activation or requirement of specific signaling pathways leading to the expression of known apoptotic genes is not well established. Utilizing the neurothrophic factor deprivation and neurotoxin models of programmed cell death we address these gaps in our understanding of the molecular mechanism of apoptosis as it occurs in neuronal cell death. Nerve growth factor (NGF) withdrawal from PC12 cells leads to the activation of p38 and apoptosis. The functional significance of 38 activation in this paradigm of cell death is not known. To increase our understanding of apoptosis I examined the requirement for p38 activity in pro-apoptotic gene expression in PC12 cells. I performed a subtractive hybridization that led to the identification of the monoamine oxidase (MAG) gene as induced in response to NGF withdrawal. Using the p38 inhibitor PD169316 I showed that the NGF withdrawal stimulated induction of the MAG gene and apoptosis is blocked by inhibition of the p38 MAP kinase pathway. I also determined that the MAG inhibitor clorgyline blocked cell death indicating that MAG activity contributes to the cell death caused by NGF withdrawal. Together, these data indicate that the p38 MAP kinase pathway targets the MAG gene in response to apoptotic stimuli. To study the requirement for the JNK signaling pathway in neurodegeneration I stimulated primary cortical neurons with the neurotoxin arsenite. Arsenite treatment of primary neurons leads to both JNK and p38 activation and subsequently apoptosis. Utilizing transgenic mice lacking the JNK3 gene I demonstrated that JNK3 specifically contributes to the effects of arsenite in these cells. Ribonuclease protection assays were used to identify Fas ligand as a molecule whose arsenite-induced expression is dependent on the JNK3 signal transduction pathway. Furthermore, I have shown that neurons deficient in signaling mediated by the receptor for Fas ligand are resistant to cell death due to arsenite treatment. These results in total have established that the JNK3 mediated expression of Fas ligand contributes to the arsenite induced death of cortical neurons. In summary, the work presented in these studies identifies the JNK and p38 MAP kinase signal transduction pathways as mediators of apoptosis in neuronal cells. Importantly, I have provided evidence that these stress activated pathways are responsible for the expression of specific genes in apoptotic neuronal cells

Postprandial Paraoxonase 1 Activity Following Consumption of Recommended Amounts of Mixed Meals in Healthy Males

Aim: Postprandial lipid level increases induce oxidative stress, which is involved in atherogenesis. The antioxidant properties of paraoxonase 1 (PON1) have attracted attention. However, changes in postprandial PON1 levels differ across prior studies, and changes in PON1 lactonase activity, potentially relevant to PON1 physiology, after the consumption of ordinary meals are unknown. Herein we evaluated postprandial serum lipid levels and PON1 changes following mixed-meal consumption of the amounts recommended for ordinary meals.Methods: Nine healthy male volunteers consumed three different meals in a randomized cross-over design. The test meals were as follows: S, white rice; SMF, S with fat-containing protein-rich main dishes; and SMFV: SMF with vegetable dishes. The serum lipid concentrations and PON1 lactonase and arylesterase activities were determined during a three-hour period after the consumption of these meals.Results: The postprandial triglyceride levels were higher after consuming the SMF and SMFV meals than after consuming the S meal. Despite postprandial high-density lipoprotein cholesterol being unchanged, PON1 lactonase activity was decreased, while PON1 arylesterase activity was increased in the postprandial state after all test meals. Postprandial changes in lactonase and arylesterase activities did not differ among the test meals.Conclusions: Inverse changes in PON1 lactonase and arylesterase activities were observed after consuming recommended ordinary meals. This observation provides useful information for choosing PON1 species as postprandial markers

Role of MAP Kinases in the Induction of Heme Oxygenase-1 by Arsenite: Studies in Chicken Hepatoma Cells: A Dissertation

The chicken hepatoma cell line, LMH, was evaluated with respect to its usefulness for studies of the regulation of heme metabolism. Levels of δ-aminolevulinate synthase mRNA arid accumulation of porphyrins were used to evaluate the heme biosynthetic pathway. Regulation of heme oxygenase-1 by known inducers was used as a measure of heme degradation. The induction of heme oxygenase-1 by sodium arsenite was characterized. AP-1 transcription factor elements and MAP kinase signal transduction pathways that modulate expression of endogenous heme oxygenase-1 and transfected heme oxygenase-1 reporter gene constructs in response to arsenite were delineated. In initial studies, the drug glutethimide was used alone or in combination with ferric nitrilotriacetate to induce δ-aminolevulinate synthase mRNA. Levels of porphyrins, intermediates in the heme biosynthetic pathway, and levels of δ-aminolevulinate synthase mRNA were increased by these treatments in a manner similar to those previously observed in the widely used model system, primary chick embryo liver cells. The iron chelator, deferoxamine, gave a characteristic shift in the glutethimide induced porphyrin accumulation in primary hepatocytes, but was found to have no, effect on LMH cells. Heme mediated repression of δ-aminolevulinate synthase mRNA levels was similar among primary hepatocytes and LMH cells. Heme oxygenase-1 was regulated by heme, metals, heat shock, and oxidative stress-inducing chemicals in LMH cells. Heat shock induction of heme oxygenase-1 mRNA levels was observed for the first time in primary chick embryo liver cells. These data supported the further use of LMH cells to elucidate mechanisms responsible for modulating heme oxygenase-1 gene expression in response to inducers. The remainder of the studies focused on the role of heme oxygenase-1 as a stress response protein. The oxidative stress inducer, sodium arsenite was used to probe the cellular mechanisms that control the expression of heme oxygenase-1. A series of promoter-reporter constructs were used to search the heme oxygenase-1 promoter for arsenite responsive elements. Several activator protein-1 (AP-1) transcription factor binding elements were identified by computer sequence analysis. Three of these sites, located at -1578, -3656, and -4597 base pairs upstream of the transcription start site, were mutated. The arsenite responsiveness of the reporter constructs containing mutated AP-1 elements was less than that of the same constructs containing wild type AP-1 elements. At least part of the arsenite-mediated induction of heme oxygenase-1 required the activity of AP-1 transcriptional elements. The MAP kinase signal transduction pathways and heme oxygenase-1 are activated by similar stimuli, including cellular stress. MAP kinases have been shown to exert control over gene expression through effects on the AP-1 family of transcription factors. The MAP kinases ERK, JNK, and p38 were activated by arsenite in LMH cells. Constitutively activated components of the ERK and p38 pathways increased expression of heme oxygenase-1 promoter-luciferase reporter constructs. Arsenite-mediated induction of heme oxygenase-1 was blocked by dominant negative ERK or p38 pathway components, and by specific inhibitors of MEK (upstream ERK kinase) or p38. In contrast, reporter gene expression was unchanged in the presence of constitutively activated JNK pathway components. Dominant negative JNK pathway components had no effect on arsenite induced heme oxygenase-1 gene activity. In summary, LMH cells were characterized as a new model system for the study of heme metabolism. This cell line was then used to delineate promoter elements and signaling pathways involved in the arsenite responsiveness of heme oxygenase-1 gene expression. Three AP-1 transcription factor binding sites in the heme oxygenase-1 promoter region were required for responsiveness to arsenite. The MAP kinases ERK and p38 were shown to play an integral role in arsenite-mediated induction of heme oxygenase-1. These studies elucidate one facet of heme oxygenase-1 regulation, and provide tools that will be useful in delineating additional regulatory mechanisms

Key Players in Reverse Cholesterol Transport: The Plasma Enzyme LCAT

Lecithin cholesterol acyltransferase (LCAT) is a plasma enzyme that remodels nascent high density lipoprotein (HDL) into a mature form called spherical HDL. The model will be used in the future to map the amino acid residues from LCAT and the protein component of nascent HDL (apoA1) involved in mutual interaction, and to identify LCAT residues interacting with the lipid phase of nascent HDL.https://engagedscholarship.csuohio.edu/u_poster_2012/1031/thumbnail.jp