Your search keyword '"April M. Lew"' showing total 8 results

1. Stay or Go: Sulfolobales Biofilm Dispersal Is Dependent on a Bifunctional VapB Antitoxin

Author

April M. Lewis, Daniel J. Willard, Mohamad J. H. Manesh, Shamphavi Sivabalasarma, Sonja-Verena Albers, and Robert M. Kelly

Subjects

toxin-antitoxin loci, biofilms, Sulfolobales, thermoacidophiles, Sulfolobus acidocaldarius, Microbiology, QR1-502

Abstract

ABSTRACT A type II VapB14 antitoxin regulates biofilm dispersal in the archaeal thermoacidophile Sulfolobus acidocaldarius through traditional toxin neutralization but also through noncanonical transcriptional regulation. Type II VapC toxins are ribonucleases that are neutralized by their proteinaceous cognate type II VapB antitoxin. VapB antitoxins have a flexible tail at their C terminus that covers the toxin’s active site, neutralizing its activity. VapB antitoxins also have a DNA-binding domain at their N terminus that allows them to autorepress not only their own promoters but also distal targets. VapB14 antitoxin gene deletion in S. acidocaldarius stunted biofilm and planktonic growth and increased motility structures (archaella). Conversely, planktonic cells were devoid of archaella in the ΔvapC14 cognate toxin mutant. VapB14 is highly conserved at both the nucleotide and amino acid levels across the Sulfolobales, extremely unusual for type II antitoxins, which are typically acquired through horizontal gene transfer. Furthermore, homologs of VapB14 are found across the Crenarchaeota, in some Euryarchaeota, and even bacteria. S. acidocaldarius vapB14 and its homolog in the thermoacidophile Metallosphaera sedula (Msed_0871) were both upregulated in biofilm cells, supporting the role of the antitoxin in biofilm regulation. In several Sulfolobales species, including M. sedula, homologs of vapB14 and vapC14 are not colocalized. Strikingly, Sulfuracidifex tepidarius has an unpaired VapB14 homolog and lacks a cognate VapC14, illustrating the toxin-independent conservation of the VapB14 antitoxin. The findings here suggest that a stand-alone VapB-type antitoxin was the product of selective evolutionary pressure to influence biofilm formation in these archaea, a vital microbial community behavior. IMPORTANCE Biofilms allow microbes to resist a multitude of stresses and stay proximate to vital nutrients. The mechanisms of entering and leaving a biofilm are highly regulated to ensure microbial survival, but are not yet well described in archaea. Here, a VapBC type II toxin-antitoxin system in the thermoacidophilic archaeon Sulfolobus acidocaldarius was shown to control biofilm dispersal through a multifaceted regulation of the archaeal motility structure, the archaellum. The VapC14 toxin degrades an RNA that causes an increase in archaella and swimming. The VapB14 antitoxin decreases archaella and biofilm dispersal by binding the VapC14 toxin and neutralizing its activity, while also repressing the archaellum genes. VapB14-like antitoxins are highly conserved across the Sulfolobales and respond similarly to biofilm growth. In fact, VapB14-like antitoxins are also found in other archaea, and even in bacteria, indicating an evolutionary pressure to maintain this protein and its role in biofilm formation.

Published

2023

2. CYP24, the enzyme that catabolizes the antiproliferative agent vitamin D, is increased in lung cancer

Author

Robert A. Parise, Talal El-Hefnawy, Martin Petkovich, Samuel S. Chuang, Merrill J. Egorin, Beatriz Kanterewicz, Mark Nichols, Pamela A. Hershberger, Mohammed Taimi, and April M. Lew

Subjects

Male, Cancer Research, medicine.medical_specialty, Gene Expression Regulation, Enzymologic, chemistry.chemical_compound, Carcinoma, Non-Small-Cell Lung, Cell Line, Tumor, Internal medicine, Carcinoma, medicine, Humans, RNA, Messenger, Enzyme Inhibitors, Vitamin D, Vitamin D3 24-Hydroxylase, Lung cancer, Aged, Cell Proliferation, Lung, business.industry, Respiratory disease, Cancer, Biological activity, Middle Aged, medicine.disease, respiratory tract diseases, Gene Expression Regulation, Neoplastic, Endocrinology, medicine.anatomical_structure, Oncology, chemistry, Cell culture, Steroid Hydroxylases, Cancer research, Female, Growth inhibition, business

Abstract

1Alpha,25-dihydroxyvitamin D3 (1,25D3) displays potent antiproliferative activity in a variety of tumor model systems and is currently under investigation in clinical trials in cancer. Studies were initiated to explore its potential in nonsmall cell lung cancer (NSCLC), as effective approaches to the treatment of that disease are needed. In evaluating factors that may affect activity in NSCLC, the authors found that CYP24 (25-hydroxyvitamin D3-24-hydroxylase), the enzyme that catabolizes 1,25D3, is frequently expressed in NSCLC cell lines but not in the nontumorigenic bronchial epithelial cell line, Beas2B. CYP24 expression by RT-PCR was also detected in 10/18 primary lung tumors but in only 1/11 normal lung tissue specimens. Tumor-specific CYP24 upregulation was confirmed at the protein level via immunoblot analysis of patient-matched normal lung tissue and lung tumor extracts. Enzymatically active CYP24 is expected to desensitize NSCLC cells to 1,25D3. The authors therefore implemented a high performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) assay for 1,25D3 and its CYP24-generated metabolites to determine whether NSCLC cells express active enzyme. Analysis of NSCLC cell cultures revealed time-dependent loss of 1,25D3 coincident with the appearance of CYP24-generated metabolites. MK-24(S)-S(O)(NH)-Ph-1, a specific inhibitor of CYP24, slowed the loss of 1,25D3 and increased 1,25D3 half-life. Furthermore, combination of 1,25D3 with MK-24(S)-S(O)(NH)-Ph-1 resulted in a significant decrease in the concentration of 1,25D3 required to achieve maximum growth inhibition in NSCLC cells. These data suggest that increased CYP24 expression in lung tumors restricts 1,25D3 activity and support the preclinical evaluation of CYP24 inhibitors for lung cancer treatment.

Published

2006

3. Specific inhibition of skeletal α-actin gene transcription by applied mechanical forces through integrins and actin

Author

April M. Lew, Christopher A. McCulloch, and Michael Glogauer

Subjects

Gene isoform, Integrin, Cell Biology, Biology, Actin cytoskeleton, Biochemistry, Molecular biology, Cell biology, Focal adhesion, chemistry.chemical_compound, chemistry, Serum response factor, biology.protein, Protein kinase A, Molecular Biology, Actin, Cytochalasin D

Abstract

Skeletal α-actin (skA), a prominent fetal actin isoform that is re-expressed by adult cardiac myocytes after chronic overload in vivo, provides a model for studying cytoskeletal gene regulation by mechanical forces in vitro. We have determined the mechanisms by which perpendicular applied forces acting through integrins and the actin cytoskeleton regulate the expression of skA. Rat-2 fibroblasts were transiently transfected with plasmids containing 5′-regulatory regions of the skA gene fused to luciferase coding sequences. A constant, perpendicular force (0.2 pN/μm2) was applied by using a collagen-magnetic bead model; a 25% deformation was obtained on the dorsal cell surface. In this system, force is applied through focal adhesion integrins and strongly induces actin assembly [Glogauer, Arora, Yao, Sokholov, Ferrier and McCulloch (1997) J. Cell Sci. 110, 11-21]. skA promoter activity was inhibited by 68% in cells subjected to 4 h of applied force, whereas Rous sarcoma virus promoter activity was unaffected. In cells transiently transfected with a skA expression vector there was also a parallel 40% decrease in skA protein levels by force, as shown by Western blotting. In L8 cells, constitutive skA expression was decreased by more than 50%. Analyses of specific motifs in the skA promoter revealed that transcriptional enhancer factor 1 and Yin and Yang 1 sites, but not serum response factor and Sp1 sites, mediated inhibitory responses to force. In cells treated with cycloheximide the force-induced inhibition was abrogated, indicating a dependence on new protein synthesis. Inhibition of actin filament assembly with either cytochalasin D or Ca2+-depleted medium blocked the inhibitory effect induced by the applied force, suggesting that actin filaments are required for the regulation of skA promoter activity. Western blot analysis showed that p38 kinase, but not Jun N-terminal kinase or extracellular signal-regulated protein kinase 1/2, was activated by force; indeed, the p38 kinase inhibitor SB203580 relieved the force-induced inhibition of skA. We conclude that the force-induced inhibition of skA promoter activity requires an intact actin cytoskeleton and can be mapped to two different response elements. This inhibition might be mediated through the p38 kinase.

Published

1999

4. G(i) alpha 2- and G(o) alpha-mediated signaling in the Pit-1-dependent inhibition of the prolactin gene promoter. Control of transcription by dopamine D2 receptors

Author

Harry P. Elsholtz, Hong Yao, and April M. Lew

Subjects

G protein, Gi alpha subunit, Dopaminergic, Cell Biology, Biology, Biochemistry, Molecular biology, Prolactin, Prolactin cell, Dopamine, Dopamine receptor D2, medicine, Signal transduction, Molecular Biology, medicine.drug

Abstract

Dopaminergic signaling in pituitary lactotrophs is dependent on coupling of D2 receptors to several inhibitory G-protein subtypes, resulting in the activation of multiple signaling pathways. In prolactin-secreting GH4 cells that express cloned D2 receptors, dopamine selectively inhibits the activity of the prolactin gene promoter, a response mediated in part by the pituitary transcription factor Pit-1. Transfected gain-of-function mutants of the G alpha subtypes, Gi alpha 2 (Q205L) and G(o) alpha (Q205L), mimic the promoter-specific and Pit-1-dependent inhibition by dopamine. Whereas the activated Gi alpha 2 subtype suppresses cAMP levels, the G(o) alpha mutant does not, demonstrating a cAMP-independent pathway in the inhibition of the prolactin gene. This alternate pathway could involve other regulators, possibly calcium. Interestingly, in Ltk- cells in which cloned D2 receptors modestly suppress cAMP, but elevate [Ca2+]i, the activity of the prolactin promoter is enhanced rather than inhibited by dopamine. The response is promoter-specific, dependent on Pit-1, and completely blocked by low concentrations of EGTA, consistent with a calcium-regulated pathway. Last, in GH4 cells, the absence of additivity between Gi alpha 2 and G(o) alpha mutants suggests a convergent mechanism in the reduction of prolactin promoter activity, in which either signaling pathway may be sufficient for maximum inhibition. This apparent redundancy in inhibitory control mechanisms may be of physiological importance for maintaining efficient tonic suppression of prolactin synthesis.

Published

1994

5. Inhibitory control of prolactin and Pit-1 gene promoters by dopamine. Dual signaling pathways required for D2 receptor-regulated expression of the prolactin gene

Author

Harry P. Elsholtz, V C Sundmark, Paul R. Albert, and April M. Lew

Subjects

Regulation of gene expression, Prolactin cell, Dopamine receptor D2, Dopaminergic, Transcriptional regulation, Promoter, Cell Biology, Biology, Molecular Biology, Biochemistry, Transcription factor, Molecular biology, Prolactin

Abstract

Transcription of the prolactin gene is suppressed by dopaminergic activation of D2 receptors in pituitary lactotrophs. The mechanism of signal transduction at the nuclear level and the cell surface was examined in the dopamine-responsive GH4ZR7 cell line. Dopamine treatment caused a 40-50% decrease in endogenous prolactin mRNA that was specifically blocked by addition of (-)-sulpiride. To define dopamine-responsive elements, plasmids containing 5'-regulatory regions of the prolactin gene fused to the coding sequences for luciferase were transiently or stably transfected into GH4ZR7 cells. Chimeric transcripts initiated at the authentic transcription start site were regulated in a promoter-selective manner; dopamine or the agonist bromocryptine inhibited prolactin promoter (position -422) activity by 70%, but had no regulatory effects on other cellular or viral promoters. A shorter prolactin promoter (position -78) or a prolactin TATAA box linked to heterologous binding sites for transcription factor Pit-1 was sufficient to confer dopamine inhibition (40%). In addition to the prolactin promoter, we found that dopamine inhibited transcriptional activity of the Pit-1 promoter (positions -258 to +8) by 60%. Surprisingly, deletion of two cAMP response elements in the Pit-1 promoter only partially eliminated dopamine responsiveness. These data suggest that sequences in the Pit-1 promoter between positions -92 and +8, which include an autoregulatory Pit-1-binding site and the TATAA box, are sufficient for negative regulation. In this study, we also examined the signal transduction pathways that link D2 receptor activation and the inhibition of prolactin gene transcription. We found, as suggested in earlier studies, that a dopamine-dependent decrease in cAMP may be important for mediating negative regulation of transcription. However, high extracellular K+ concentrations that prevent dopamine effects on membrane potential and [Ca2+]i, but not cAMP levels, completely blocked dopamine regulation of the prolactin promoter. This suggests that two distinct signaling pathways initiated at D2 receptors may be required for transcriptional regulation of the prolactin gene.

Published

1991

6. Highly conserved cysteines of mouse core 2 beta1,6-N-acetylglucosaminyltransferase I form a network of disulfide bonds and include a thiol that affects enzyme activity

Author

Steve Bryson, Alessandro Datti, Ten-Yang Yen, Bruce A. Macher, Roderick Tse, Xiaoqing Chang, Sawako Takeshita, April M. Lew, and Igor Tvaroška

Subjects

Models, Molecular, Protein Folding, Time Factors, Disulfide Linkage, enzyme inhibitors, disulfide bonds, Biochemistry, Dithiothreitol, chemistry.chemical_compound, Mice, Serine, Bacteriophage T4, Chymotrypsin, Peptide-N4-(N-acetyl-beta-glucosaminyl) Asparagine Amidase, Protein Isoforms, Trypsin, Disulfides, 6-N-acetylglucosaminyltransferase I, Protein disulfide-isomerase, Conserved Sequence, mass spectrometry, protein modeling, chemistry.chemical_classification, biology, Chemistry, Serine Endopeptidases, Recombinant Proteins, three-dimensional structure, Glucosyltransferases, Reducing Agents, Thiol, Molecular Sequence Data, N-Acetylglucosaminyltransferases, Core 2 β1,6-N-acetylglucosaminyltransferase I, O-glycans, Polysaccharides, Cations, Cell Adhesion, Animals, Homology modeling, Amino Acid Sequence, Cysteine, Sulfhydryl Compounds, Binding site, Molecular Biology, Binding Sites, Dose-Response Relationship, Drug, Sequence Homology, Amino Acid, Cell Biology, Enzyme assay, Kinetics, Mutation, biology.protein, Core 2 β1

Abstract

Core 2 beta1,6-N-acetylglucosaminyltransferase I (C2GnT-I) plays a pivotal role in the biosynthesis of mucin-type O-glycans that serve as ligands in cell adhesion. To elucidate the three-dimensional structure of the enzyme for use in computer-aided design of therapeutically relevant enzyme inhibitors, we investigated the participation of cysteine residues in disulfide linkages in a purified murine recombinant enzyme. The pattern of free and disulfide-bonded Cys residues was determined by liquid chromatography/electrospray ionization tandem mass spectrometry in the absence and presence of dithiothreitol. Of nine highly conserved Cys residues, under both conditions, one (Cys217) is a free thiol, and eight are engaged in disulfide bonds, with pairs formed between Cys59-Cys413, Cys100-Cys172, Cys151-Cys199, and Cys372-Cys381. The only non-conserved residue within the beta1,6-N-acetylglucosaminyltransferase family, Cys235, is also a free thiol in the presence of dithiothreitol; however, in the absence of reductant, Cys235 forms an intermolecular disulfide linkage. Biochemical studies performed with thiolreactive agents demonstrated that at least one free cysteine affects enzyme activity and is proximal to the UDP-GlcNAc binding site. A Cys217 --Ser mutant enzyme was insensitive to thiol reactants and displayed kinetic properties virtually identical to those of the wild-type enzyme, thereby showing that Cys217, although not required for activity per se, represents the only thiol that causes enzyme inactivation when modified. Based on the pattern of free and disulfide-linked Cys residues, and a method of fold recognition/threading and homology modeling, we have computed a three-dimensional model for this enzyme that was refined using the T4 bacteriophage beta-glucosyltransferase fold.

Published

2003

7. Investigation of simulated microgravity effects on Streptococcus mutans physiology and global gene expression

Author

Silvia S. Orsini, April M. Lewis, and Kelly C. Rice

Subjects

Biotechnology, TP248.13-248.65, Physiology, QP1-981

Abstract

Microbiology: Cavities-causing bacteria altered by space-like conditions The gene expression patterns, metabolism and physiology of tooth cavities-causing microbes change in a space-like gravity environment. These findings could help explain why astronauts are at a greater risk for dental diseases when in space. Kelly Rice and colleagues from the University of Florida, Gainesville, USA, cultured Streptococcus mutans bacteria under simulated microgravity and normal gravity conditions. The bacteria grown in microgravity were more susceptible to killing with hydrogen peroxide, tended to aggregate in more compact cellular structures, showed changes in their metabolite profile and expressed around 250 genes at levels that were either much higher or lower than normal gravity control cultures. These genes included many involved in carbohydrate metabolism, protein production and stress responses. The observed changes collectively suggest that space flight and microgravity could alter the cavities-causing potential of S. mutans.

Published

2017

8. Cloning of the human cDNA for transcription factor pit-1

Author

April M. Lew and Harry P. Elsholtz

Subjects

Transcription Factor Pit-1, Molecular Sequence Data, Nucleic acid sequence, DNA, Biology, Polymerase Chain Reaction, Molecular biology, DNA-binding protein, Homology (biology), law.invention, DNA-Binding Proteins, chemistry.chemical_compound, chemistry, law, Complementary DNA, Genetics, Humans, Cloning, Molecular, Transcription factor, Polymerase chain reaction, Transcription Factors

Published

1991