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2. Differential Gene Expression following DHX36/G4R1 Knockout Is Associated with G-Quadruplex Content and Cancer

Author

Gumina, Joseph M., primary, Richardson, Adam E., additional, Shojiv, Mahmudul Hasan, additional, Chambers, Antonio E., additional, Sandwith, Siara N., additional, Reisinger, Michael A., additional, Karns, Taylor J., additional, Osborne, Tyler L., additional, Alashi, Hasna N., additional, Anderson, Quinn T., additional, Sharlow, Meredith E., additional, Seiler, Dylan C., additional, Rogers, Evan M., additional, Bartosik, Anna R., additional, Smaldino, Melissa A., additional, Vaughn, James P., additional, Wang, Yuh-Hwa, additional, Smaldino, Philip J., additional, and Haney, Robert A., additional

Published
2024
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3. Differential Gene Expression following DHX36 / G4R1 Knockout Is Associated with G-Quadruplex Content and Cancer.

Author

Gumina, Joseph M., Richardson, Adam E., Shojiv, Mahmudul Hasan, Chambers, Antonio E., Sandwith, Siara N., Reisinger, Michael A., Karns, Taylor J., Osborne, Tyler L., Alashi, Hasna N., Anderson, Quinn T., Sharlow, Meredith E., Seiler, Dylan C., Rogers, Evan M., Bartosik, Anna R., Smaldino, Melissa A., Vaughn, James P., Wang, Yuh-Hwa, Smaldino, Philip J., and Haney, Robert A.

Subjects
GENE expression, QUADRUPLEX nucleic acids, DNA structure, ONCOGENES, PROMOTERS (Genetics), CELL physiology
Abstract

G-quadruplexes (G4s) are secondary DNA and RNA structures stabilized by positive cations in a central channel formed by stacked tetrads of Hoogsteen base-paired guanines. G4s form from G-rich sequences across the genome, whose biased distribution in regulatory regions points towards a gene-regulatory role. G4s can themselves be regulated by helicases, such as DHX36 (aliases: G4R1 and RHAU), which possess the necessary activity to resolve these stable structures. G4s have been shown to both positively and negatively regulate gene expression when stabilized by ligands, or through the loss of helicase activity. Using DHX36 knockout Jurkat cell lines, we identified widespread, although often subtle, effects on gene expression that are associated with the presence or number of observed G-quadruplexes in promoters or gene regions. Genes that significantly change their expression, particularly those that show a significant increase in RNA abundance under DHX36 knockout, are associated with a range of cellular functions and processes, including numerous transcription factors and oncogenes, and are linked to several cancers. Our work highlights the direct and indirect role of DHX36 in the transcriptome of T-lymphocyte leukemia cells and the potential for DHX36 dysregulation in cancer. [ABSTRACT FROM AUTHOR]

Published
2024
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7. The RNA helicase DHX36/G4R1 modulates C9orf72 GGGGCC repeat-associated translation

Author

Tseng, Yi-Ju, primary, Sandwith, Siara N., additional, Green, Katelyn M., additional, Chambers, Antonio E., additional, Krans, Amy, additional, Raimer, Heather M., additional, Sharlow, Meredith E., additional, Reisinger, Michael A., additional, Richardson, Adam E., additional, Routh, Eric D., additional, Smaldino, Melissa A., additional, Wang, Yuh-Hwa, additional, Vaughn, James P., additional, Todd, Peter K., additional, and Smaldino, Philip J., additional

Published
2021
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8. Latex Carpet Compound Rheology

Author

Triantafillopoulos Nick, Schreiner Bruce, Vaughn James, and Bousfield Douglas

Subjects
foam rheology, bubble formation, shear viscosity, carpet compounding, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

This is a study of three-phase foam rheology to qualify penetration in to backing webs during frothed carpet compounds applications. Transient viscosity as a function of shear rate under a short time period is proposed to characterize flow of these compounds in response to a rapidly changing shear field during their application. We developed a fluid dynamic model that predicts the shear and pressure distributions in the compound during its processing in a metering nip based on process parameters and rheological results. We tested frothed compound formulations that are empirically known to be “penetrating” and “non-penetrating” based on the choice of soap (frothing surfactant). Formulated at the same froth density, penetrating to carpet backing compounds had large froth bubbles, relatively low transient shear viscosity and showed increasing foam breakdown due to shear when compared to non-penetrating compounds. Such frothed compounds readily collapse under shear and have relatively low dynamic stability, so the transition from a three-phased (air/aqueous/solid) to a two-phased (water/solid) system occurs much easier and faster during application. The model predicts the shear rate development and a small difference in the pressure distributions in the applicator nip between these formulations, but reduction in drainage for the non-penetrating formulation.

Published
2008
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10. Synthesis of Recent Paleoseismic Research on Quaternary Faulting in the Eastern Tennessee Seismic Zone, Eastern North America: Implications for Seismic Hazard and Intraplate Seismicity.

Author

Cox, Randel Tom, Hatcher, Robert D., Forman, Steven L., Counts, Ronald, Vaughn, James, Gamble, Eric, Glasbrenner, Jacob, Warrell, Kathleen, Adhikari, Narayan, and Pinardi, Sean

Abstract

Causes of intraplate seismicity remain a great unsolved problem, in contrast with plate-boundary seismicity. Modern seismicity records frequent seismic activity in plate-boundary seismic zones, but in fault zones where seismic activity is not frequent, plate boundary or intraplate, resolution of prehistoric earthquake activity is critical for estimating earthquake recurrence interval and maximum expected magnitude. Thus, documenting prehistoric earthquakes is crucial for assessing earthquake hazard posed to infrastructure, including nuclear reactors and large dams. The ~400 km long eastern Tennessee seismic zone (ETSZ), United States, is the third most active seismic zone east of the Rocky Mountains in North America, although the largest recorded ETSZ earthquake is only Mw 4.8. Ironically, it is the least studied major eastern U.S. seismic zone. Recent ETSZ field surveys revealed an 80 km long, 060°-trending corridor containing northeast-striking Quaternary thrust, strike slip, and normal faults with displacements =1 m. It partially overlaps a parallel trend of seismicity that extends 30 km farther southwest, suggesting this active faulting zone may extend ~110 km within part of the ETSZ. Near Dandridge, Tennessee, a thrust fault in French Broad River alluvium records two earthquakes in the last 40,000 yr. About 50 km southwest near Alcoa, Tennessee, a thrust fault cuts Little River alluvium and records two earthquakes between 15,000 and 10,000 yr ago. About 30 km farther southwest at Vonore, Tennessee, a thrust fault displaces bedrock =2 m over colluvium, and alluvium is normal faulted >2 m. This corridor, just west of the Blue Ridge escarpment, overlies a steep gradient in midcrustal S-wave velocities, consistent with a basement fault at hypocentral depths. The corridor faults may be connected to a basement fault or localized coseismic faults above a blind basement fault. Our current data suggest at least two Mw ≥ 6.5 surface rupturing events in the last 40,000 yr. [ABSTRACT FROM AUTHOR]

Published
2022
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15. G-Quadruplex Helicase DHX36/G4R1 Engages Nuclear Lamina Proteins in Quiescent Breast Cancer Cells

Author

Richardson, Adam. E., primary, Zentz, Zachary. A., additional, Chambers, Antonio E., additional, Sandwith, Siara N., additional, Reisinger, Michael A., additional, Saunders, Destinee W., additional, Tompkins, Joshua D., additional, Riggs, Arthur D., additional, Routh, Eric D., additional, Rubenstein, Eric M., additional, Smaldino, Melissa A., additional, Vaughn, James P., additional, Haney, Robert A., additional, and Smaldino, Philip J., additional

Published
2020
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18. Immunocytochemical localization of GABAergic neurones at the electron microscopical level

Author

Ribak, Charles E, Vaughn, James E, and Barber, Roeert P

Subjects
Biomedical and Clinical Sciences, Neurosciences, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Animals, Brain, Carboxy-Lyases, Glutamate Decarboxylase, Immunoenzyme Techniques, Microscopy, Electron, Neurons, Rabbits, Rats, Rats, Inbred Strains, Spinal Cord, gamma-Aminobutyric Acid, Biochemistry and Cell Biology, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Biochemistry & Molecular Biology, Biochemistry and cell biology, Clinical sciences
Abstract

Antibodies prepared to purified brain glutamic acid decarboxylase (GAD), the synthesizing enzyme for the neurotrasmitter, γ-aminobutyric, acid (GABA), have been utilized with an unlabelled antibody method to localize GABAergic neurones in both light and electron microscopic preparations. A modification of Sternberger's peroxidase-antiperoxidase (PAP) complex is used to localize the site of anti-GAD binding, and the PAP complex is visualized with diaminobenzidine and H2O2. The reaction product is visible in both the light and electron microscopes. The ability to localize and identify labelled profiles in the electron microscope provides more functional information than light microscopical preparations. For example, the GAD-positive reaction product occurs mostly in association with synaptic vesicles within axon terminats, and this localization indicates the importance of GAD for the packaging and storage of GABA. The somata and dendrites of neurones giving rise to these terminals are visualized in colchicine-injected material. The GABAergic neurones form axo-somatic, axo-dendritic, axo-axonal and dendro-dendritic synapses in various regions of the rat central nervous system. Pretreatments of animals with anterograde degeneration have shown the significance of some of the GABAergic terminals that form axo-axonal synapses in the spinal cord. An many brain regions, such as the cerebral cortex, hippocampus and olfactory bulb, virtually all of the GABAergic synapses are derived from local circuit neurones. In other regions such as the cerebellum and neostriatum, the GABAergic terminals are derived from both local circuit neurones and the local axon collaterals of projection neurones that have their somata within these regions. A third type of configuration of GABAergic terminals occurs in the globus pallidus and substantia nigra where these terminals are derived from distant brain regions, axon collaterals of projection neurones and from local circuit neurones. Together, these results indicate the complex organization of the GABAergic system of the brain that has been vividly revealed with electron in croscopical immunocytochemistry. © 1981 Chapman and Hall Ltd.

Published
1981

19. Inhibitory, GABAergic Nerve Terminals Decrease at Sites of Focal Epilepsy

Author

Ribak, Charles E, Harris, A Basil, Vaughn, James E, and Roberts, Eugene

Subjects
Neurosciences, Epilepsy, Brain Disorders, Neurodegenerative, Neurological, Animals, Carboxy-Lyases, Cerebral Cortex, Epilepsies, Partial, Glutamate Decarboxylase, Glutamates, Haplorhini, Macaca fascicularis, Macaca mulatta, Motor Cortex, Nerve Endings, gamma-Aminobutyric Acid, General Science & Technology
Abstract

Using an immunocytochemical method for the localization of the gamma-aminobutyric acid (GABA) synthesizing enzyme, glutamic acid decarboxylase (GAD), we have observed GABAergic nerve terminals distributed throughout all layers of normal monkey sensorimotor cortex. These terminals displayed ultrastructural characteristics that suggested that they arose from aspinous and sparsely spinous stellate neurons. In monkeys (Macaca mulatta and M. fascicularis) made epileptic by cortical application of alumina gel, a highly significant numerical decrease of GAD-positive nerve terminals occurred at sites of seizure foci indicating a functional loss of GABAergic inhibitory synapses. A loss of such inhibition at seizure foci could lead to epileptic activity of cortical pyramidal neurons.

Published
1979

20. Gabaergic nerve terminals decrease in the substantia nigra following hemitransections of the striatonigral and pallidonigral pathways

Author

Ribak, Charles E, Vaughn, James E, and Roberts, Eugene

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Neurosciences, Brain Disorders, Neurological, Animals, Axons, Corpus Striatum, Dendrites, Globus Pallidus, Glutamate Decarboxylase, Neural Pathways, Rats, Substantia Nigra, Synapses, gamma-Aminobutyric Acid, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Glutamic acid decarboxylase (GAD), the enzyme that synthesizes the neurotransmitter, GABA, was immunocytochemically localized in axon terminals as well as in small and medium-sized neurons of the rat substantia nigra. The pattern formed by GAD-containing axon terminals with the dendrites and somata of neurons in the substantia nigra was altered following ipsilateral hemitransections of the striatonigral and pallidonigral pathways. A marked reduction of GAD-positive terminals occurred throughout this brain region, but the ventral fifth of the pars reticulata showed a nearly normal pattern of GAD-positive axon terminals. The results of this investigation are consistent with results from biochemical studies which have indicated that the striatonigral and/or pallidonigral pathways are GABAergic. In addition, these results suggest that the residual GABAergic terminals remaining after hemitransection are derived from intrinsic neurons of the substantia nigra.

Published
1980

21. Immunocytochemical localization of glutamic acid decarboxylase in neuronal somata following colchicine inhibition of axonal transport

Author

Ribak, Charles E, Vaughn, James E, and Saito, Kihachi

Subjects
Biomedical and Clinical Sciences, Neurosciences, Neurological, Animals, Axonal Transport, Brain, Carboxy-Lyases, Cerebellar Cortex, Colchicine, Fluorescent Antibody Technique, Glutamate Decarboxylase, Hippocampus, Neurons, Rats, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

The enzyme that synthesizes the neurotransmitter γ-aminobutyric acid (GABA), glutamic acid decarboxylase (GAD), has been immunocytochemically localized in the somata and dendrites of certain neurons in rat cerebellum and Ammom's horn following colchicine injections into these two brain regions. In the cerebellum. GAD-positive reaction product was observed in the somata and proximal dendrites of Purkinje, Golgi II, basket and stellate neurons. Occasional staining of the proximal portions of axons was also observed in these colchicine-injected preparations. None of the somata or dendrites of these same cell types exhibited reaction product in preparations that were not pretreated with colchicine, although the axon terminals of these neurons were GAD-positive. In Ammon's horn, the somata of a few cells that are classified as probable basket and other short-axon neurons contained detectable concentrations of GAD in preparations that were not pretreated with colchicine. However, following colchicine injections into the Ammon's horn, there was approximately a five-fold increase in the number of GAD-positive somata of basket and other short-axon neurons. There was also a substantial increase in the extent of dendritic staining exhibited by these neurons. Control injections of saline and lumicolchicine produced the same results as those observed in preparations which were not pretreated with colchicine. Thus, the results from the control injections indicate that the increases in somal and dendritic staining are due to a colchicine-mediated inhibition of the somatofugal transport of GAD rather than to a non-specific effect of the drug and/or the injection procedure. The results of the present study permit the direct identification of the neuronal somata in the cerebellum and Ammon's horn whose synaptic terminals probably use GABA as their neurotransmitter. On the basis of the present findings, a reasonable explanation for the failure of earlier immunocytological studies to detect somal GAD in certain GABAergic neurons is that the axonal transport of GAD appears to occur at a sufficiently rapid rate to limit the somal concentration of GAD to low, undetectable levels. © 1978.

Published
1978

22. Glutamate decarboxylase localization in neurons of the olfactory bulb

Author

Ribak, Charles E, Vaughn, James E, Saito, Kihachi, Barber, Robert, and Roberts, Eugene

Subjects
Biomedical and Clinical Sciences, Neurosciences, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Animals, Carboxy-Lyases, Glutamate Decarboxylase, Histocytochemistry, Olfactory Bulb, Rats, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Glutamate decarboxylase (GAD), the enzyme that synthesizes the neurotransmitter gamma-aminobutyric acid (GABA), has been localized in the rat olfactory bulb by immunocytochemical methods with both light and electron microscopy. The light microscopic results demonstrated GAD-positive puncta concentrated in the external plexiform layer and in the glomeruli of the glomerular layer. In addition, GAD-positive reaction product stained the dentrites and somata of granule and periglomerular cells. The electron microscopic observations confirmed the presence of GAD-positive reaction product within granule and periglomerular somata and dendrites. In electron micrographs of the external plexiform layer, the gemmules which arise from the distal dentrites of granule cells were also observed to be filled with reaction product, and these structures corresponded in size and location to the puncta observed in light microscopic preparations. The gemmules were observed to form reciprocal dendrodentritic synaptic junctions with mitral cell dentrites which lacked reaction product. In the glomeruli, GAD-positive reaction product was observed in the dentritic shafts and gemmules of periglomerular cells which also formed reciprocal dendrodentritic synaptic contacts with mitral/tufted cell dentrites. The localization of GAD in known inhibitory neurons of the olfactory bulb supports the case that these local circuit neurons use GABA as their neurotransmitter. The present study demonstrates that GAD molecules located within certain neuronal somata and dentrites can be visualized with antisera prepared against GAD that was purified from synaptosomal fractions of mouse brains. This finding suggests that the lack of GAD staining within somata and dentrites of GABA-ergic neurons noted in previous studies of the cerebellum and spinal cord was probably due to low GAD concentrations, rather than to antigenic differences among GAD molecules located in different portions of the neuron. A striking differences among GAD molecules located in different portions of the neuron. A striking difference between the granule and periglomerular neurons of the olfactory bulb and the neurons of the cerebellum and spinal cord is that the former have presynaptic dentrites while the latter do not. Since GAD-positive reaction product can be detected in the somata and dentrites of GABA-ergic neurons which have presynaptic dentrites, it is suggested that these neurons may differ from other GABA-ergic neurons with respect to either transport or metabolism of GAD.

Published
1977

23. Immunocytochemical localization of glutamate decarboxylase in rat substantia nigra

Author

Ribak, Charles E, Vaughn, James E, Saito, Kihachi, Barber, Robert, and Roberts, Eugene

Subjects
Biomedical and Clinical Sciences, Neurosciences, Animals, Axons, Carboxy-Lyases, Dendrites, Glutamate Decarboxylase, Immunoenzyme Techniques, Rats, Substantia Nigra, Synapses, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

L-Glutamate decarboxylase (GAD, EC 4.1.1.15), the enzyme which catalyzes the alpha-decarboxylation of L-glutamate to form gamma-aminobutyric acid (GABA), was localized both light and electron microscopically in rat substantia nigra by an immunoperoxidase method. Large amounts of GAD-positive reaction produce were seen throughout the substantia nigra in light microscopic preparations, and it appeared to be localized in punctate structures that were apposed to dendrites and somata. Electron microscopic studies revealed that most of the axon terminals in the substantia nigra were filled with GAD-positive reaction product and formed both axodendritic and axosomatic synapses. Many dendrites were extensively surrounded by GAD-positive terminals which most commonly formed symmetric synaptic junctions, although some formed asymmetric synpatic junctions. The results of this investigation are consistent with biochemical, pharmacological and physiological data which have indicated that neurons of the neostriatum and globus pallidus exert a GABA-mediated, postsynaptic inhibition upon the neurons of the substantia nigra. These findings provide another example in the vertebrate central nervous system where Golgi I projection neurons are inhibitory and use GABA as their neurotransmitter.

Published
1976

25. Antisense DNA downregulation of ERBB2 oncogene measured by a flow cytometric assay

Author

Vaughn, James P., Iglehart, J. Dirk, Demirdji, Samuel, Davis, Penelope, Babiss, Lee E., Caruthers, Marvin H., and Marks, Jeffrey R.

Subjects
Breast cancer -- Research, Antisense DNA -- Analysis, Oncogenes -- Analysis, Flow cytometry -- Diagnostic use, Science and technology
Abstract

The paper describes the specific downregulation of ERBB2 protein and mRNa in the breast cancer cell line SK-BR-3, using antisense DNA phosphorothioates. A novel approach was developed to examine antisense effects that allows simultaneous measurement of antisense dose and gene specific regulation on an individual cell basis. A fluorescein isothiocynate end labeled tracer oligonucleotide along with antisense DNA followed by immunofluorescent staining for and ERBB2 protein expression was utilized. After 2 days of ERBB2 suppression, an accumulation of cancer cells in the G1 phase of the cell cycle was noticed.

Published
1995

27. Yin Yang 1 contains G-quadruplex structures in its promoter and 5′-UTR and its expression is modulated by G4 resolvase 1

Author

Huang, Weiwei, Smaldino, Philip J., Zhang, Qiang, Miller, Lance D., Cao, Paul, Stadelman, Kristin, Wan, Meimei, Giri, Banabihari, Lei, Ming, Nagamine, Yoshikuni, Vaughn, James P., Akman, Steven A., Sui, Guangchao, Huang, Weiwei, Smaldino, Philip J., Zhang, Qiang, Miller, Lance D., Cao, Paul, Stadelman, Kristin, Wan, Meimei, Giri, Banabihari, Lei, Ming, Nagamine, Yoshikuni, Vaughn, James P., Akman, Steven A., and Sui, Guangchao

Abstract

Yin Yang 1 (YY1) is a multifunctional protein with regulatory potential in tumorigenesis. Ample studies demonstrated the activities of YY1 in regulating gene expression and mediating differential protein modifications. However, the mechanisms underlying YY1 gene expression are relatively understudied. G-quadruplexes (G4s) are four-stranded structures or motifs formed by guanine-rich DNA or RNA domains. The presence of G4 structures in a gene promoter or the 5′-UTR of its mRNA can markedly affect its expression. In this report, we provide strong evidence showing the presence of G4 structures in the promoter and the 5′-UTR of YY1. In reporter assays, mutations in these G4 structure forming sequences increased the expression of Gaussia luciferase (Gluc) downstream of either YY1 promoter or 5′-UTR. We also discovered that G4 Resolvase 1 (G4R1) enhanced the Gluc expression mediated by the YY1 promoter, but not the YY1 5′-UTR. Consistently, G4R1 binds the G4 motif of the YY1 promoter in vitro and ectopically expressed G4R1 increased endogenous YY1 levels. In addition, the analysis of a gene array data consisting of the breast cancer samples of 258 patients also indicates a significant, positive correlation between G4R1 and YY1 expression

Published
2017

28. Role of the amino terminal RHAU-specific motif in the recognition and resolution of guanine quadruplex-RNA by the DEAH-box RNA helicase RHAU

Author

Lattmann, Simon, Giri, Banabihari, Vaughn, James P., Akman, Steven A., Nagamine, Yoshikuni, Lattmann, Simon, Giri, Banabihari, Vaughn, James P., Akman, Steven A., and Nagamine, Yoshikuni

Abstract

Under physiological conditions, guanine-rich sequences of DNA and RNA can adopt stable and atypical four-stranded helical structures called G-quadruplexes (G4). Such G4 structures have been shown to occur in vivo and to play a role in various processes such as transcription, translation and telomere maintenance. Owing to their high-thermodynamic stability, resolution of G4 structures in vivo requires specialized enzymes. RHAU is a human RNA helicase of the DEAH-box family that exhibits a unique ATP-dependent G4-resolvase activity with a high affinity and specificity for its substrate in vitro. How RHAU recognizes G4-RNAs has not yet been established. Here, we show that the amino-terminal region of RHAU is essential for RHAU to bind G4 structures and further identify within this region the evolutionary conserved RSM (RHAU-specific motif) domain as a major affinity and specificity determinant. G4-resolvase activity and strict RSM dependency are also observed with CG9323, the Drosophila orthologue of RHAU, in the amino terminal region of which the RSM is the only conserved motif. Thus, these results reveal a novel motif in RHAU protein that plays an important role in recognizing and resolving G4-RNA structures, properties unique to RHAU among many known RNA helicases

Published
2017

29. The DEAH-box RNA helicase RHAU binds an intramolecular RNA G‐quadruplex in TERC and associates with telomerase holoenzyme

Author

Lattmann, Simon, Stadler, Michael B., Vaughn, James P., Akman, Steven A., Nagamine, Yoshikuni, Lattmann, Simon, Stadler, Michael B., Vaughn, James P., Akman, Steven A., and Nagamine, Yoshikuni

Abstract

Guanine-quadruplexes (G4) consist of non-canonical four-stranded helical arrangements of guanine-rich nucleic acid sequences. The bulky and thermodynamically stable features of G4 structures have been shown in many respects to affect normal nucleic acid metabolism. In vivo conversion of G4 structures to single-stranded nucleic acid requires specialized proteins with G4 destabilizing/unwinding activity. RHAU is a human DEAH-box RNA helicase that exhibits G4-RNA binding and resolving activity. In this study, we employed RIP-chip analysis to identify en masse RNAs associated with RHAU in vivo. Approximately 100 RNAs were found to be associated with RHAU and bioinformatics analysis revealed that the majority contained potential G4-forming sequences. Among the most abundant RNAs selectively enriched with RHAU, we identified the human telomerase RNA template TERC as a true target of RHAU. Remarkably, binding of RHAU to TERC depended on the presence of a stable G4 structure in the 5′-region of TERC, both in vivo and in vitro. RHAU was further found to associate with the telomerase holoenzyme via the 5′-region of TERC. Collectively, these results provide the first evidence that intramolecular G4-RNAs serve as physiologically relevant targets for RHAU. Furthermore, our results suggest the existence of alternatively folded forms of TERC in the fully assembled telomerase holoenyzme

Published
2017

30. G4 Resolvase 1 tightly binds and unwinds unimolecular G4-DNA

Author

Giri, Banabihari, Smaldino, Philip J., Thys, Ryan G., Creacy, Steven D., Routh, Eric D., Hantgan, Roy R., Lattmann, Simon, Nagamine, Yoshikuni, Akman, Steven A., Vaughn, James P., Giri, Banabihari, Smaldino, Philip J., Thys, Ryan G., Creacy, Steven D., Routh, Eric D., Hantgan, Roy R., Lattmann, Simon, Nagamine, Yoshikuni, Akman, Steven A., and Vaughn, James P.

Abstract

It has been previously shown that the DHX36 gene product, G4R1/RHAU, tightly binds tetramolecular G4-DNA with high affinity and resolves these structures into single strands. Here, we test the ability of G4R1/RHAU to bind and unwind unimolecular G4-DNA. Gel mobility shift assays were used to measure the binding affinity of G4R1/RHAU for unimolecular G4-DNA-formed sequences from the Zic1 gene and the c-Myc promoter. Extremely tight binding produced apparent Kd's of 6, 3 and 4 pM for two Zic1 G4-DNAs and a c-Myc G4-DNA, respectively. The low enzyme concentrations required for measuring these Kd's limit the precision of their determination to upper boundary estimates. Similar tight binding was not observed in control non-G4 forming DNA sequences or in single-stranded DNA having guanine-rich runs capable of forming tetramolecular G4-DNA. Using a peptide nucleic acid (PNA) trap assay, we show that G4R1/RHAU catalyzes unwinding of unimolecular Zic1 G4-DNA into an unstructured state capable of hybridizing to a complementary PNA. Binding was independent of adenosine triphosphate (ATP), but the PNA trap assay showed that unwinding of G4-DNA was ATP dependent. Competition studies indicated that unimolecular Zic1 and c-Myc G4-DNA structures inhibit G4R1/RHAU-catalyzed resolution of tetramolecular G4-DNA. This report provides evidence that G4R1/RHAU tightly binds and unwinds unimolecular G4-DNA structures

Published
2017

32. RNAi screens to determine homologous recombination networks

Author

Detzer, A, Engel, C, Wuensche, W, Sczakiel, G, Urschel, Stephanie, Schyth, Brian Dall, Bramsen, Jasper Bertram, Kjems, Jørgen, Wengel, Jesper, Lorenzen, Niels, Lundin, Cecilia, Evers, Bastiaan, Ebner, Daniel, Helleday, Thomas, Arthur, William, Poehlmann, TG, Schaefer, HW, Koehn, S, Imhof, D, Schubert, US, Seyfarth, L, Pan, Qiuwei, Tilanus, Hugo W, Janssen, Harry LA, van der Laan, Luc JW, Sharaf, Mariam, Vaughn, James P., Penichet, Manuel L., Juliano, Rudy, Shaw, Barbara Ramsay, Danielson, D, Cheng, J, Koukiekolo, R, Pezacki, JP, Laufer, Sandra D, Scholz, Carsten, Sczakiel, Georg, Svoboda, Petr, Rothe, Diana, Werk, Denise, Fechner, Henry, Poller, Wolfgang, Dutkiewicz, Mariola, Zeichhardt, Heinz, Grunert, Hans-Peter, Erdmann, Volker A, Kurreck, Jens, Medarova, Zdravka, Lu, Patrick, Adami, Roger, Harvie, Pierrot, Johns, Rachel, Zhu, Tianying, Seth, Shaguna, Fosnaugh, Kathy, Fam, Renata, McCutcheon, Michael, Farber, Ken, Kwang, Erin, Granger, Brian, Severson, Greg, Bell, Susan, Liu, Yan, Chen, Yan, Brown, Tod, Vaish, Narendra, Matsui, Yoshiyuki, So, Allan, Templin, Michael V, Houston, Michael, Polisky, Barry, Ballabio, Erica, Mitchell, Tracey, van Kester, Marloes, Chi, Jianxiang, Tramonti, Daniela, Chen, Xiao-He, Tosi, Isabella, Vermeer, Maarten, Whittaker, Sean J, Tensen, Cornelius P, Hatton, Christian SR, Lawrie, Charles H, Laganà, A, Russo, F, Giugno, R, Pulvirenti, A, and Ferro, A

Subjects
Conference Proceedings
Abstract

17-18 March 2010, St Hilda's College, Oxford, United Kingdom, The Argonaute proteins constitute a highly conserved family of nucleic acid-binding proteins whose members have been implicated in RNA interference (RNAi) and related phenomena in several organisms. In particular, Argonaute 2 (Ago2) represents one of the key players in the RNA induced silencing complex (RISC). However, recently published literature describes that Ago2 itself is regulated under certain cellular conditions by post-translational modifications. In this work, we investigated the activity of human Ago2 under various conditions of cell stress. Under such conditions, the sub-cellular localization of Ago2 was altered which was coincident with its decreased function in the RNAi pathway. This work implies that specific cellular stress conditions induce an intracellular translocation of Ago2 protein excluding it from sites of action of the RNAi machinery. Details will be presented and discussed., Although microRNAs (miRNAs) have been shown to regulate genes that play roles in important biological processes such as development, differentiation and disease, identifying miRNAs of interest and characterizing their mechanism of action remains a challenge. The miR-200 family has been shown to regulate epithelial to mesenchymal transitions (EMT), a process that is critical for normal development and tumor metastasis. Furthermore, recent publications indicate that the miR-200 family regulates EMT by targeting ZEB1 and ZEB2, transcription factors that repress E-cadherin. Here, we use breast cancer cell lines as an EMT model system to characterize the miR-200 family's role in these biological processes. miRIDIAN microRNA microarray profiling was use to characterize cell lines followed by introduction of miRIDIAN miRNA mimics and hairpin inhibitors to modulate miRNA expression in these cell lines. Based on these studies we have devised a workflow for studying miRNA expression and identifying miRNA targets., Small interfering RNAs (siRNAs) are promising new active compounds in gene medicine. But one serious problem with delivering siRNAs as treatment is the well-established stimulation of innate immune reactions by some RNA duplexes and lack of effective delivery systems. Innate immune reactions towards double stranded RNAs include the 2′-5 oligoadenylate (OAS) system, the protein kinase R (PKR), RIG-I and Toll-like receptor activated pathways all resulting in activation of antiviral defence mechanism. We have previously described a high throughput animal screening model in which the level of stimulation of interferon-related anti viral effects is measured as increased resistance of siRNA-injected small fish to a pathogenic virus. Here we show how this fish model can be used to make a fast in vivo analysis of the effect of chemical base modification in the siRNAs on the level of antiviral off-target effects., Defects in DNA repair and damage response can drive tumour progression and results in genomic instability in tumour cells. Whereas these DNA repair defects can be exploited in cancer therapy where unrepaired lesions induced by anti-cancer agents increase tumour killing, these DNA repair defects can also cause resistance to anti-cancer treatments. Defects in DNA repair pathways may also render tumour cells dependent on other complementary repair pathways as seen with the synthetic lethal effect of PARP inhibitors in BRCA-defective tumours. Altogether, there is a potential use of DNA repair inhibitors in anti-cancer treatment, either in combination therapy to increase the efficacy of e.g. radiation or as mono-therapy to target essential compensatory DNA repair pathways. Homologous recombination (HR) is a repair pathway involved in repairing double-strand breaks and replication-associated lesions, the main toxic lesions induces by anti-cancer drugs. Depletion of the key protein involved in HR, the RAD51 protein, is lethal but loss of other proteins involved in HR is compatible with survival. To understand the wider network of HR proteins and with the aim to find novel proteins that can be used as targets for HR-inhibition, we have used a RNAi screen approach to create functional genetic network maps describing proteins involved in homologous recombination. Foci formation of the RAD51 protein has been studied in U2OS cells subjected to protein knock-down using a RNAi library in co-treatment with either irradiation or camptothecin. This identifies proteins involved in the HR response to different types of lesions. In addition, a GFP-reporter-based HR assay has been used to identify proteins involved in HR repair of a site-specific double-strand break. With these experiments we hope to increase our understanding of the complex network of homologous recombinational repair as well as find potential targets for anti-cancer treatments., The canonical Wnt/β-Catenin pathway controls myriad fundamental cellular processes, such as differentiation and proliferation. Aberrant regulation of this signaling cascade can result in several disease phenotypes and is a hallmark of colorectal cancer and hepatocellular carcinoma. Genetic evidence links Wnt/β-Catenin signaling to the control of bone density. The identification of new components of this pathway may lead to the development of novel therapies targeting a variety of cancers and osteoporosis. Accordingly, we have conducted genome scale RNAi screens in multiple cell contexts to discover new pathway regulators. We developed a screening process that included steps for initial hit identification, mitigation of off target effects, elimination of cell line-specific effects, and measurement of Wnt/β-Catenin signature regulation. We further validated a number of these new pathway mediators in vitro for physical association with canonical pathway members and in vivo by use of zebrafish models. These studies have characterized AGGF1, BTK, and DHFR as new modulators or the Wnt/β-Catenin pathway., SiRNA molecules have a high potential for therapeutic applications. Here we present a mechanism of cell-specific, peptide-blocked siRNA. SiRNA is bound to short peptides preventing RISC formation. Peptides contain target sequence of peptidases, exclusively active in target cells. After intracellular delivery, only in target cells, peptidases cleave peptides leading to siRNA activation. Used peptide sequence is the target sequence for caspase-4, expressed in Jeg-3 choriocarcinoma and MCF-7 mammalian cancer cells, but not in human embryonic kidney (HEK) cells. We aimed to silence Signal Transducer of Activation (STAT3) expression by such modified siRNA specifically in Jeg-3 as well as MCF-7 in contrast to HEK cells. Western blot was performed to detect STAT3 protein. Furthermore, proliferation of STAT3 silenced cells was analysed. The peptide was bound to the siRNA antisense strand via amino-C6-linker based on Fmoc chemistry. Correct binding was analysed by PAGE and Maldi-MS. In Jeg-3 and MCF-7 modified siRNA became activated and reduced STAT3 expression in contrast to HEK cells lacking caspase-4. Moreover, proliferation was significantly reduced in STAT3 silenced cells. In conclusion, STAT3, which is responsible for increased proliferation and invasive properties of various cancer cells, can be cell-specifically silenced using the presented novel technology. Preliminary experiments indicate that the presented mechanism of peptide-inhibited; peptidase-activated siRNA can be transferred to a variety of cell specific active peptidases and related disease models., Background: RNA interference (RNAi), the degradation of cognate mRNA by small interfering RNA (siRNA), has emerged as a promising therapeutic entity for viral infections, including hepatitis C virus (HCV) HCV. In plants and invertebrates, RNAi-mediated protection can spread to neighboring cells; however, such a phenomenon has not been described in mammalian cells. In this study, we investigated whether endogenous expressed liver-specific microRNA and vector-delivered siRNA can transfer between cells and whether this exchange could extend the therapeutic effect of RNAi against HCV infection. Methods: Human hepatoma cell lines Huh7 and HepG2, Huh7-ET HCV replicon cells, and renal epithelial line 293T were co-cultured with conditioned medium or cells stably transduced with integrating lentiviral vectors expressing green fluorescent protein (GFP) and small hairpin RNAs targeting the HCV NS5b (LV-shNS5b), CD81 (LV-shCD81) or non-targeted control (LV-shCon). Liver-specific microRNA, miR-122, was quantified by real-time RT-PCR. Results: MiR-122 is not only highly expressed in Huh7 cells but also detectable in Huh7-CM, suggesting release of miR-122 by the cells. Upon incubation of HepG2 or 293T cells, which are 200 and 50,000-fold lower in miR-122 expression, with Huh7-CM the miR-122 level in these cells was increased by 4-20 fold, indicating uptake of miR-122 from the medium. To further investigate whether small interfering RNA delivered by vectors can be transferred between cells, Huh7-ET was co-cultured with stably transfected Huh7 cells expressing shNS5b or shCon. A significant reduction of viral replication was observed at 1:1 ratio of shNS5b cells (52±12% p, Borane (–BH3) chemistry offers some unique chemical characteristics that make these compounds promising for enhancing the potential of three anticancer strategies; (a) RNA interference (siRNA) (b) the selection of tumor specific aptamers and (c) Boron Neutron Capture Therapy, a highly selective type of radiation therapy. Borane oligonucleotides are nuclease resistant and have increased lipophilicity compared to natural oligonucleotides, yet the modified borane nucleotide triphosphates (NTPαBs) still are efficiently recognized and utilized by RNA polymerase enzymes which enable the enzymatic synthesis of RNA (siRNA and aptamers). The novel properties of boranophosphate RNA molecules could lead to an increase in affinity and specificity of the siRNA and aptamers, as well impart stability of the nucleic acids to cellular nucleases. We hypothesize that borane-RNA molecules will interact a new diverse array of ligand sites in proteins (RISC siRNA carriers or ErbB2 therapeutic target) because of the distinct hydrophobicity, shape, and polarity properties imparted by the phosphorus-boron (P-B) chemical bond compared to the natural phosphorus-oxygen (P-O) bond. (a) A major cause of chemotherapeutic treatment failure against human cancers is the aberrant regulation of genes such as MDR1 in cancer cells. Controlling the expression of cancer genes with antisense technology is a possible cancer therapy. MDR1 codes for a p-glycoprotein (Pgp) that is overexpressed in multidrug resistant cancer cells. Specifically, using modified Small interfering RNAs (siRNAs) that target and degrade the p-glycoprotein mRNA produced by the MDR1 gene can be used to correct the overexpression of p-glycoprotein. (b) The selection of boranophosphate modified RNA aptamers by the SELEX (Systematic Evolution of Ligands by EXponential enrichment) against ErbB2. It is likely that targeting a more specific cancer membrane target such as the ErbB2 receptor with a borane RNA aptamer may also be an effective two-prong strategy in breast cancer therapy. Like the antibody protein, Herceptin, an aptamer may assume a distinct shape and block the receptor. (c) Further, borane aptamers can be used as specific carriers of 10B in Boron Neutron Capture Therapy (BNCT). BNCT specifically destroys tumor cells near boron molecules. The selection of α-P-borano-modified RNA aptamers against receptors highly over-expressed in breast cancer should provide the opportunity of testing the efficacy of a target specific method for delivering boron to the cancer cells. Such boron molecules could be potent and unique anti-tumor surrogates for antibodies because of their ease in selection, smaller size, nuclease resistance, susceptibility to BNCT, and versatility in terms of adding chemical modifications to increase potency., The RNA silencing pathway is engaged during the cellular innate immune response to double-stranded RNA. Particularly in plants, this serves as an anti-viral defense mechanism and results in the degradation of homologous viral RNA. Several viruses have evolved mechanisms to undermine the RNA silencing pathway. Tombusviruses, such as the Carnation Italian Ringspot virus (CIRV), express a 19 kDa protein (p19) which acts as a suppressor of the RNA-silencing pathway. As a dimer, p19 binds double stranded small RNAs in a size-selective and relatively sequence-independent manner, thereby preventing their incorporation into RISC. The p19 protein binds 21 nucleotide double-stranded small RNAs with nanomolar affinity. These unique selective binding features allow p19 to be used as a molecular ruler that can be used to detect small RNAs. We have further increased the potential of the p19 protein through engineering several recombinant p19 proteins which allow us to detect protein-RNA interactions in solution. By constructing linked versions of the CIRV-p19 dimer we have improved the stability and binding affinity of the p19 dimer while still maintaining its ability to discriminate RNA according to length. A recombinant p19-CFP fusion protein allows us to use fluorescence-based techniques to detect and quantify protein-RNA interactions based on Förster Resonance Energy Transfer (FRET). In this method, when the linked recombinant p19-CFP dimer binds Cy3-labelled dsRNA, intermolecular FRET occurs between the CFP donor and the Cy3 acceptor giving a quantifiable signal. In order to extend this methodology to in vivo detection of small RNA, we have developed an intramolecular FRET probe which incorporates YFP, another GFP analog, into the 2x-p19-CFP recombinant protein. Progress towards using this ‘chameleon’ recombinant protein, CFP-2x-p19-YFP, as a FRET-based probe for live-cell imaging of small RNA production and localization will be presented., RNA interference (RNAi) is a highly evolutionary conserved RNA-dependent gene silencing process initiated by short double-stranded RNA molecules. These include micro RNA and short interfering RNA (siRNA), the latter causing sequence-specific degradation of homologous mRNA sequences. Soon after the groundbreaking discovery of siRNA-mediated regulation of gene expression, the RNA induced silencing complex (RISC) was found to be the effector complex of RNAi with argonaute proteins as the catalytic component. Here, HeLa cell cytoplasmic S100 extract was established as a minimal mechanistic in vitro model to study this process in more detail. Cleavage reactions of a radiolabeled in vitro synthesized target RNA by double-stranded siRNA were performed and cleavage products as well as turnover rates were measured as a function of Mg2+ concentration, nucleotide sequence and time. Despite a lot of advances in the understanding of RISC activity, different composition sizes and associated factors of this complex have been reported in the literature. The above described HeLa cell extract was used to isolate truly active RISCs by purification of complexes via the target mRNA component such that involved protein and nucleic acid components can be further characterized. In summary, HeLa cell extract was shown to be a valuable tool for kinetic and mechanistic studies of siRNA-mediated RNA interference., MicroRNAs (miRNAs) are small endogenous RNAs, which typically imperfectly base-pair with 3'UTRs and mediate translational repression and mRNA degradation. Dicer, an RNase III generating small RNAs in the miRNA and RNAi pathways, is essential for meiotic maturation of mouse oocytes. We found that 3'UTRs of transcripts up-regulated in Dicer1/oocytes are not enriched in miRNA binding sites implicating a weak impact of miRNAs on the maternal transcriptome. Therefore, we tested the ability of endogenous miRNAs to mediate RNA-like cleavage or translational repression of reporter mRNAs. In contrast to somatic cells, endogenous miRNAs in fully-grown GV oocytes poorly repressed reporter translation while their RNAi-like activity was much less affected. In addition, reporter mRNA carrying let-7-binding sites failed to localize to P-bodies, cytoplasmic foci containing proteins involved in RNA repression and degradation where miRNA-repressed transcripts typically localize. In fact, P-bodies are not found in fully-grown mouse oocytes but disappear early during oocyte growth. In fully-grown oocytes, several P-body components and other RNA binding proteins including DDX6, CPEB, MSY2, and the exon junction complex form transient, subcortical RNA-containing aggregates, which disperse during oocyte maturation, consistent with recruitment of maternal mRNAs that occurs during this time. In contrast, levels of P-body component DCP1A are low during oocyte growth and DCP1A does not co-localize with DDX6 in the sub-cortical aggregates. The amount of DCP1A markedly increases during meiosis, which correlates with the first wave of destabilization of maternal mRNAs. Our data suggest that normal miRNA function is down-regulated during oocyte development and this idea is further supported by normal meiotic maturation of oocytes lacking Dgcr8, which is required for miRNA but not RNAi pathway. We propose that suppression of miRNA function during oocyte growth is an early event in reprogramming gene expression during the transition of a differentiated oocyte into pluripotent blastomeres of the embryo. Furthermore, the cortex of growing oocytes serves an mRNA storage compartment, which contains a novel type of RNA granule related to P-bodies., Being a member of the Picornavirus family, Coxsackievirus B3 (CVB-3) is one of the major pathogens that may lead to dilated cardiomyopathy. It is a small, non-enveloped RNA virus. Because of the plus-stranded RNA genome it is qualified for the application of RNA interference. We developed highly efficient small interfering RNAs (siRNAs) against the viral 3D RNA dependent RNA polymerase (3Dpol). Hence we were able to inhibit CVB-3 proliferation up to 90% in a plaque reduction assay. Recent experiments revealed the potential to use siRNAs modified with locked nucleic acids (LNA) or unlocked nucleic acids (UNA) to inhibit virus replication. For in vivo applications, vector delivery of shRNA expression cassettes was found to be a suitable approach to treat mice with virus-induced myocarditis. An AAV-vector expressing two shRNAs against CVB-3 was found to improve the heart parameters in a mouse model for an enterovirus myocarditis. Finally, a synergistic and potent antiviral effect in persistently infected human myocardial fibroblasts was obtained, when the siRNA was combined with a soluble variant of the coxsackievirus-adenovirus receptor, which acts as a virus trap. Taken together, these studies demonstrate that RNA interference is a powerful tool to inhibit cardiotropic viruses., Our studies have focused on the application of imaging-capable nanoparticulate agents for the delivery of siRNA to target tissues. One example includes magnetic nanoparticles (MN), which have traditionally been utilized as contrast agents for magnetic resonance imaging. MN typically consist of a dextran-coated superparamagnetic iron oxide core (for magnetic resonance imaging), labeled with Cy5.5 dye (for near-infrared in vivo optical imaging), and conjugated to synthetic siRNA molecules targeting model or therapeutic genes. We have explored the potential of these nanoparticles as delivery modules for small interfering RNA to tumors and pancreatic islets. Furthermore, we have investigated the feasibility of combining the imaging and delivery capabilities of these nanoparticles for the tracking of siRNA bioavailability. The versatile functionalization potential of MN has allowed us to control properties of the agents, such as uptake mechanism and target organ distribution. The tumoral accumulation of MN-siRNA results in a remarkable level of target-gene down-regulation. Repeated treatment with MN-siBIRC5, targeting the tumor-specific anti-apoptotic gene, birc5, leads to the induction of apoptosis in the tumors and an overall reduction in tumor growth rate. Another application of MN-siRNA extends from the fact that these nanoparticles are also taken up by pancreatic islets following in vitro incubation. This uptake can be visualized by magnetic resonance and near-infrared fluorescence optical imaging and results in down-regulation of target genes. This approach has relevance in the context of pancreatic islet transplantation, which is a promising new treatment of type 1 diabetes. A potential application of this method would involve the selective knock-down of genes implicated in islet graft dysfunction, such as pro-apoptotic genes and genes involved in immuno-recognition. More recent studies that will be discussed briefly have focused on the delivery of knock-down LNA probes targeting specific miRNA pathways., Development of siRNA therapeutics has already demonstrated clinical benefits in more than a dozen human trials. Using siRNA cocktail to silence multiple disease genes is truly realizing the advantage of small interfering RNA (siRNA)-based drugs. We have developed a set of siRNA cocktails using our proprietary algorithm and “Tri-Blocker™” platform, as the active pharmaceutical ingredient (API). Those siRNA cocktails were further tested and validated in the disease relevant animal models using a series of polymer- and liposome-based nanoparticles. The therapeutic programs in the late preclinical development stage, STP705 for improving skin scarless wound healing, STP702 for treatment of influenza H5N1/H1N1 infections and STP601 for treatment of ocular neovascularization diseases, are all based on the local and topical siRNA delivery using the self-assembled first generation nanoparticles. We further developed the second generation nanoparticles with peptide ligands and monoclonal antibodies for targeted cancer siRNA therapeutics which were tested in mouse xenograft tumor models. In addition, we are currently developing the third generation siRNA delivery vehicles, using Infrared-activated silica-coated upconversion nanoparticle (SC-UPNP) and oral-delivered nano-microspheres (OD-NMS). When the siRNA cocktail is applied with other drug modalities, such as monoclonal antibody, the therapeutic benefit was even further improved., A UsiRNA directed against mRNA for the human survivin gene was formulated into liposomes formed with a novel Di- Alkylated Amino Acid (DiLA2) resulting in well encapsulated (>85%) small (100-130 nm) particles. UsiRNAs are novel siRNA constructs which incorporate Unlocked Nucleobase Analogs (UNAs) within the oligonucleotide sequence. The survivin UsiRNA has been demonstrated to be highly potent, with an in vitro IC50 of 10 to 30 pM, which leads to caspase induction and apoptosis in cancer cells. A murine Hep3B-based orthotopic liver cancer model was used to assess the in vivo efficacy of the survivin UsiRNA DiLA2 liposomes with systemic administration. Dosing at 2 mg/kg (q3d x 6 doses; i.v.) resulted in approximately a 50% knockdown of survivin mRNA and 60% decrease in tumor weight. This result compared favorably with Avastin™ (bevacizumab)-treated mice which served as a positive control. A similar level of survivin mRNA knockdown was noted in a xenograft model of subcutaneously implanted liver tumors and systemic administration. In an orthotopic bladder cancer model, survivin UsiRNA DiLA2 liposomes were delivered topically (intravesical dosing) at up to 1.0 mg/kg (q2d x 4 doses). Greater than 90% inhibition of the survivin mRNA was observed, and there was a dose-dependent decrease in bioluminescence of up to approximately 90% in UsiRNA-treated mice which indicates reduced tumor growth. 5'-RACE analysis confirmed an RNAi-mediated mechanism of action for mRNA inhibition in each tumor model. Data for knockdown of multiple targets in tissues of normal mice and for a liver target in non-human primates has also been demonstrated with systemic administration of DiLA2-based liposomes. Taken together these data demonstrate that DiLA2 liposomes are an effective systemic and local delivery system for UsiRNAs, in both cancer and non-cancer indications., MicroRNAs are a recently discovered class of naturally occurring short non-coding RNA molecules that regulate eukaryotic gene expression. There is emerging evidence to suggest that microRNAs are involved in the pathogenesis of many cancers including B cell lymphoma. There is however little data on the role of microRNAs in T cell lymphomas. Therefore we employed microarray analysis to investigate a possible role for microRNAs in the biology of cutaneous T-cell lymphomas; Sezary syndrome (SzS, n=21), mycosis fungoides (MF, n=26) and cutaneous anaplastic large cell lymphoma (cALCL, n=15) and relevant controls (CD4+ cells from healthy subjects (n=6), and skin biopsies from patients with inflammatory disorders (n=17). Using unsupervised cluster analysis we observed that the T-cell lymphomas have a distinct miRNA profile from their counterpart controls and have distinct profiles between diagnosis. We identified a number of miRNAs in common between the T-cell lymphomas and well as those specific for diagnosis. In summary, we have identified a number of Sz-associated microRNAs that may play a role in the pathogenesis of these diseases., The sequencing of the human genome revealed that 55% of its nucleotide sequence is composed of repetitive elements and that a large fraction of the "non-functional" DNA originated from mobile elements (1). They were considered until recently as “selfish” or "Junk DNA" (2). For example, Alu elements comprise about 10% of the nucleotides of the human genome (1), with over one million inserted copies. There is evidence showing that the presence of repetitive elements had a great influence on the human genome and it has been shown that Alu repeats are mediators of recurrent chromosomal aberrations in tumors as in the case of the chromosomal translocation of intronic Alu elements (3). Recently, it was reported that some mammalian miRNAs are derived from genomic repeats and some of them show perfect complementarity with the MIR/LINE-2 class of repetitive elements, which are present within a large number of human mRNAs and EST transcripts (4). It was hypothesized that Alu elements within the 3'-UTRs are targeted specifically by certain miRNAs (5) and it has been proposed that a dual relationship exists between miRNAs and their Alu targets that may have evolved in the same time window. One hypothesis for this dual relationship is that these miRNAs could protect against excessively high rates of duplicative transposition, which would destroy the genome (6). Here we present the computational prediction of human miRNA/transposon interactions. We performed the analysis by using a combined approach based on thermodynamics and empirical constraints and found significant matches between miRNAs and human repetitive elements such as LINE, SINE, DNA transposon and ERV1. For example, over 30 miRNAs potentially target the L180_5 element (LINE1 family; 1883 nucleotides) and over 20 miRNAs are predicted to target the RICKSHA element (Non-autonomous DNA transposon fossil; 2030 nucleotides). We considered perfect seed complementarity only (7-mers or higher), with no G:U wobbles. The obtained results suggest a potential role of miRNAs in the regulation of repetitive elements and in particular transposons.

Published
2010

48. Paleoseismic Evidence for Multiple Mw=6 Earthquakes in the Eastern Tennessee Seismic Zone during the Late Quaternary.

Author

Warrell, Kathleen F., Cox, Randel T., Hatcher Jr., Robert D., Vaughn, James D., and Counts, Ronald

Abstract

The eastern Tennessee seismic zone (ETSZ) is the second-most active seismic zone in the eastern United States, but it has not generated an earthquake larger than Mw 4.8 in historic time. Earthquakes are sourced deep in autochthonous basement, and there are no known faults originating at this depth that break the surface. As a result, until recently, there has been virtually no fieldwork to identify Quaternary paleoseismic features in the ETSZ. We present new results from paleoseismic investigations of coseismic features that indicate the ETSZ generated Mw=6 earthquakes during the late Quaternary. Detailed geologic mapping and trenching near Dandridge, Tennessee, record a northeast-trending zone of seismically generated features. Optically stimulated luminescence ages delimit timing for the formation of paleoseismic features crosscutting Quaternary alluvium and alluvium-filled fissures, including a thrust fault with ~1 m displacement. Collectively, this zone of faults and fissures provides significant evidence that the ETSZ has produced at least three large earthquakes during the late Pleistocene and at least one that exceeded Mw 6. [ABSTRACT FROM AUTHOR]

Published
2017
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49. Interactions between immunity, proliferation and molecular subtype in breast cancer prognosis.

Author

Nagalla, Srikanth, Chou, Jeff W, Willingham, Mark C, Ruiz, Jimmy, Vaughn, James P, Dubey, Purnima, Lash, Timothy L, Hamilton-Dutoit, Stephen J, Bergh, Jonas, Sotiriou, Christos, Black, Michael A, Miller, Lance D, Nagalla, Srikanth, Chou, Jeff W, Willingham, Mark C, Ruiz, Jimmy, Vaughn, James P, Dubey, Purnima, Lash, Timothy L, Hamilton-Dutoit, Stephen J, Bergh, Jonas, Sotiriou, Christos, Black, Michael A, and Miller, Lance D

Abstract

BACKGROUND: Gene expression signatures indicative of tumor proliferative capacity and tumor-immune cell interactions have emerged as principal biology-driven predictors of breast cancer outcomes. How these signatures relate to one another in biological and prognostic contexts remains to be clarified. RESULTS: To investigate the relationship between proliferation and immune gene signatures, we analyzed an integrated dataset of 1,954 clinically annotated breast tumor expression profiles randomized into training and test sets to allow two-way discovery and validation of gene-survival associations. Hierarchical clustering revealed a large cluster of distant metastasis-free survival-associated genes with known immunological functions that further partitioned into three distinct immune metagenes likely reflecting B cells and/or plasma cells; T cells and natural killer cells; and monocytes and/or dendritic cells. A proliferation metagene allowed stratification of cases into proliferation tertiles. The prognostic strength of these metagenes was largely restricted to tumors within the highest proliferation tertile, though intrinsic subtype-specific differences were observed in the intermediate and low proliferation tertiles. In highly proliferative tumors, high tertile immune metagene expression equated with markedly reduced risk of metastasis whereas tumors with low tertile expression of any one of the three immune metagenes were associated with poor outcome despite higher expression of the other two metagenes. CONCLUSIONS: These findings suggest that a productive interplay among multiple immune cell types at the tumor site promotes long-term anti-metastatic immunity in a proliferation-dependent manner. The emergence of a subset of effective immune responders among highly proliferative tumors has novel prognostic ramifications., JOURNAL ARTICLE, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2013

50. Interactions between immunity, proliferation and molecular subtype in breast cancer prognosis

Author

Nagalla, Srikanth, primary, Chou, Jeff W, additional, Willingham, Mark C, additional, Ruiz, Jimmy, additional, Vaughn, James P, additional, Dubey, Purnima, additional, Lash, Timothy L, additional, Hamilton-Dutoit, Stephen J, additional, Bergh, Jonas, additional, Sotiriou, Christos, additional, Black, Michael A, additional, and Miller, Lance D, additional

Published
2013
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