Your search keyword '"Tomlinson, Craig R."' showing total 8 results

1. Genome-wide analyses show that nuclear and cytoplasmic RNA levels are differentially affected by dioxin

Author

Schwanekamp, Jennifer A., Sartor, Maureen A., Karyala, Saikumar, Halbleib, Danielle, Medvedovic, Mario, and Tomlinson, Craig R.

Published

2006

2. An ECM-bound, PDGF-like growth factor and a TGF-alpha-like growth factor are required for gastrulation and spiculogenesis in the Lytechinus embryo

Author

Govindarajan, Venkatesh, Ramachandran, Ravi K., George, Jenny M., Shakes, Diane C., and Tomlinson, Craig R.

Subjects

Gastrulation -- Research, Transforming growth factors -- Observations, Platelet-derived growth factor -- Observations, Embryology -- Observations, Biological sciences

Abstract

Growth factors and the extracellular matrix have been shown to fulfill vital developmental roles in many embryonic systems. Our hypothesis is that a developmental role played by the extracellular matrix in sea urchins may be the binding of a PDGF-like growth factor to promote signaling activity. We report here that anti-human PDGF-B antibodies and anti-human TGF-[alpha] antibodies immunoprecipitated specific proteins isolated from Lytechinus embryos. Addition of these antibodies to Lytechinus embryos inhibited gastrulation and spiculogenesis. The embryos are sensitive to the antibodies from the four-cell through the hatching blastula stages, which suggests that the TGF-[alpha]-like and PDGF-like ligands are required for the early differentiation of the gut and spicules. We present evidence that the PDGF-like growth factor depends on the extracellular matrix for signaling activity. Synthetic peptides representing the heparan sulfate proteoglycan binding sequence on human PDGF-B were added to Lytechinus embryo cultures to compete for binding sites with the endogenous PDGF-like growth factor. The experimental peptide inhibited gastrulation and caused radially arranged multiple spicules to form. Development was unaffected by a control peptide. These studies support our hypothesis and suggest that TGF-[alpha]-like and PDGF-like growth factors induce signaling events required for sea urchin gastrulation and spiculogenesis and suggest that an extracellular matrix-associated PDGF-like growth factor is involved in differentiation along the oral-aboral axis.

Published

1995

3. Ah receptor signals cross-talk with multiple developmental pathways

Author

Puga, Alvaro, Tomlinson, Craig R., and Xia, Ying

Subjects

*GENE expression, *MOLECULAR biologists, *TOXICOLOGISTS, *APOPTOSIS

Abstract

Abstract: For many years, the Ah receptor (AHR) has been a favorite of toxicologists and molecular biologists studying the connections between genes and the changes in the control of gene expression resulting from environmental exposures. Much of the attention given to the Ah receptor has focused on the nature of its ligands, many of which are known or suspected carcinogens, and on the role that its best studied regulatory product, the CYP1A1 enzyme, plays in toxic responses and carcinogen activation. This understandable bias has resulted in a disproportionate amount of Ah receptor research being directed at toxicological or adaptive end points. In recent times, it has become evident that Ah receptor functions are also involved in molecular cascades that lead to inhibition of proliferation, promotion of differentiation, or apoptosis, with an important bearing in development. Developmental and toxicological AHR functions may not always be related. The ancestral AHR protein in invertebrates directs the developmental fate of a few specific neurons and does not bind xenobiotic ligands. The mammalian AHR maintains normal liver function in the absence of exogenous ligands and, when activated by dioxin, cross-talks with morphogenetic and developmental signals. Toxic end points, such as the induction of cleft palate by dioxin in mice embryos, might be at the crossroads of these signals and provide important clues as to the developmental role of the AHR. [Copyright &y& Elsevier]

Published

2005

4. Effects of pH on the mutagenicity of sodium azide in Neurospora crassa and Salmonella typhimurium

Author

Tomlinson, Craig R.

Published

1980

5. Effect of simulated microgravity on oxidation-sensitive gene expression in PC12 cells

Author

Kwon, Ohwon, Sartor, Maureen, Tomlinson, Craig R., Millard, Ronald W., Olah, Mark E., Sankovic, John M., and Banerjee, Rupak K.

Subjects

*GRAVITY, *GENE expression, *CELL lines, *TRANSCRIPTION factors

Abstract

Abstract: Oxygen utilization by and oxygen dependence of cellular processes may be different in biological systems that are exposed to microgravity (micro-g). A baseline in which cellular changes in oxygen sensitive molecular processes occur during micro-g conditions would be important to pursue this question. The objective of this research is to analyze oxidation-sensitive gene expression in a model cell line [rat pheochromocytoma (PC12)] under simulated micro-g conditions. The PC12 cell line is well characterized in its response to oxygen, and is widely recognized as a sensitive model for studying the responses of oxygen-sensitive molecular and cellular processes. This study uses the rotating wall vessel bioreactor (RWV) designed at NASA to simulate micro-g. Gene expression in PC12 cells in response to micro-g was analyzed by DNA microarray technology. The microarray analysis of PC12 cells cultured for 4 days under simulated micro-g under standardized oxygen environment conditions revealed more than 100 genes whose expression levels were changed at least twofold (up-regulation of 65 genes and down-regulation of 39 genes) compared with those from cells in the unit gravity (unit-g) control. This study observed that genes involved in the oxidoreductase activity category were most significantly differentially expressed under micro-g conditions. Also, known oxidation-sensitive transcription factors such as hypoxia-inducible factor-2α, c-myc, and the peroxisome proliferator-activated receptor-γ were changed significantly. Our initial results from the gene expression microarray studies may provide a context in which to evaluate the effect of varying oxygen environments on the background of differential gene regulation of biological processes under variable gravity conditions. [Copyright &y& Elsevier]

Published

2006

6. Obesity and fatty liver are prevented by inhibition of the aryl hydrocarbon receptor in both female and male mice.

Author

Moyer, Benjamin J., Rojas, Itzel Y., Kerley-Hamilton, Joanna S., Nemani, Krishnamurthy V., Trask, Heidi W., Ringelberg, Carol S., Gimi, Barjor, Demidenko, Eugene, and Tomlinson, Craig R.

Abstract

Inhibition of the aryl hydrocarbon receptor (AHR) prevents Western diet–induced obesity and fatty liver in C57Bl/6J (B6) male mice. The AHR is a ligand-activated nuclear receptor that regulates genes involved in xenobiotic metabolism and T-cell differentiation. Here, we tested the hypothesis that AHR antagonism would also prevent obesity and fatty liver in female mice and that B6 mice (higher-affinity AHR) and congenic B6.D2 mice (lower-affinity AHR) would differentially respond to AHR inhibition. Female and male adult B6 and B6.D2 mice were fed control and Western diets with and without α -naphthoflavone (NF), an AHR inhibitor. A nonlinear mixed-model analysis was developed to project asymptote body mass. We found that obesity, adiposity, and liver steatosis were reduced to near control levels in all female and male B6 and B6.D2 experimental groups fed Western diet with NF. However, differences were noted in that female B6.D2 vs B6 mice on Western diet became more obese; and in general, female mice compared with male mice had a greater fat mass to body mass ratio, were less responsive to NF, and had reduced liver steatosis and hepatomegaly. We report that male mice fed Western diet containing NF or CH-223191, another AHR inhibitor, caused reduced mRNA levels of several liver genes involved in metabolism, including Cyp1b1 and Scd1 , offering evidence for a possible mechanism by which the AHR regulates obesity. In conclusion, although there are some sex- and Ahr allelic-dependent differences, AHR inhibition prevents obesity and liver steatosis in both males and females regardless of the ligand-binding capacity of the AHR. We also present evidence consistent with the notion that an AHR-CYP1B1-SCD1 axis is involved in obesity, providing potentially convenient and effective targets for treatment. [ABSTRACT FROM AUTHOR]

Published

2017

7. Obesity I: Overview and molecular and biochemical mechanisms.

Author

Lustig, Robert H., Collier, David, Kassotis, Christopher, Roepke, Troy A., Ji Kim, Min, Blanc, Etienne, Barouki, Robert, Bansal, Amita, Cave, Matthew C., Chatterjee, Saurabh, Choudhury, Mahua, Gilbertson, Michael, Lagadic-Gossmann, Dominique, Howard, Sarah, Lind, Lars, Tomlinson, Craig R., Vondracek, Jan, and Heindel, Jerrold J.

Subjects

*FAT cells, *ADIPOGENESIS, *OBESITY, *METABOLIC disorders, *ARYL hydrocarbon receptors, *NON-communicable diseases, *PEPTIDES

Abstract

[Display omitted] • There is an expanding global obesity and non-communicable disease pandemic. • Obesity is a multifactorial, multi-organ, multi-hormone, and multi-mechanism disease. • Genetic and environmental influences control adiposity and weight gain. • Understanding the tissues/organs, hormones, and mechanisms involved in obesity set the stage for understanding the evidence for the obesogen hypothesis. Obesity is a chronic, relapsing condition characterized by excess body fat. Its prevalence has increased globally since the 1970s, and the number of obese and overweight people is now greater than those underweight. Obesity is a multifactorial condition, and as such, many components contribute to its development and pathogenesis. This is the first of three companion reviews that consider obesity. This review focuses on the genetics, viruses, insulin resistance, inflammation, gut microbiome, and circadian rhythms that promote obesity, along with hormones, growth factors, and organs and tissues that control its development. It shows that the regulation of energy balance (intake vs. expenditure) relies on the interplay of a variety of hormones from adipose tissue, gastrointestinal tract, pancreas, liver, and brain. It details how integrating central neurotransmitters and peripheral metabolic signals (e.g., leptin, insulin, ghrelin, peptide YY 3-36) is essential for controlling energy homeostasis and feeding behavior. It describes the distinct types of adipocytes and how fat cell development is controlled by hormones and growth factors acting via a variety of receptors, including peroxisome proliferator-activated receptor-gamma, retinoid X, insulin, estrogen, androgen, glucocorticoid, thyroid hormone, liver X, constitutive androstane, pregnane X, farnesoid, and aryl hydrocarbon receptors. Finally, it demonstrates that obesity likely has origins in utero. Understanding these biochemical drivers of adiposity and metabolic dysfunction throughout the life cycle lends plausibility and credence to the "obesogen hypothesis" (i.e., the importance of environmental chemicals that disrupt these receptors to promote adiposity or alter metabolism), elucidated more fully in the two companion reviews. [ABSTRACT FROM AUTHOR]

Published

2022

8. Differential regulation of polysome mRNA levels in mouse Hepa-1C1C7 cells exposed to dioxin

Author

Thornley, Jessica A., Trask, Heidi W., Ridley, Christian J.A., Korc, Murray, Gui, Jiang, Ringelberg, Carol S., Wang, Sinny, and Tomlinson, Craig R.

Subjects

*LIVER cells, *MESSENGER RNA, *GENE expression, *GENETIC regulation, *DIOXINS, *LABORATORY mice, *CYTOPLASM, *CELL nuclei

Abstract

Abstract: The environmental agent 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD or dioxin) causes a multitude of human illnesses. In order to more fully understand the underlying biology of TCDD toxicity, we tested the hypothesis that new candidate genes could be identified using polysome RNA from TCDD-treated mouse Hepa-1c1c7 cells. We found that (i) differentially expressed whole cell and cytoplasm RNA levels are both poor predictors of polysome RNA levels; (ii) for a majority of RNAs, differential RNA levels are regulated independently in the nucleus, cytoplasm, and polysomes; (iii) for the remaining polysome RNAs, levels are regulated via several different mechanisms, including a “tagging” of mRNAs in the nucleus for immediate polysome entry; and (iv) most importantly, a gene list derived from differentially expressed polysome RNA generated new genes and cell pathways potentially related to TCDD biology. [Copyright &y& Elsevier]

Published

2011