Your search keyword '"Roger L. Kaspar"' showing total 29 results

1. Oxidative stress and dysfunctional NRF2 underlie pachyonychia congenita phenotypes

Author

Andreas Berroth, Michelle L. Kerns, Rosemary G. Lu, Jill Hakim, Yajuan Guo, Roger L. Kaspar, and Pierre A. Coulombe

Subjects

Male, 0301 basic medicine, NF-E2-Related Factor 2, Biology, Keratin 16, medicine.disease_cause, environment and public health, Pathogenesis, Mice, 03 medical and health sciences, chemistry.chemical_compound, Downregulation and upregulation, Isothiocyanates, Keratoderma, Palmoplantar, medicine, Animals, Humans, Pachyonychia congenita, RNA, Messenger, Phosphorylation, Mice, Knockout, Keratin-16, Receptor for activated C kinase 1, General Medicine, Glutathione, respiratory system, medicine.disease, 3. Good health, Mice, Inbred C57BL, Disease Models, Animal, Oxidative Stress, Phenotype, 030104 developmental biology, Palmoplantar keratoderma, chemistry, Pachyonychia Congenita, Sulfoxides, Immunology, Cancer research, Oxidative stress, Research Article

Abstract

Palmoplantar keratoderma (PPK) are debilitating lesions that arise in individuals with pachyonychia congenita (PC) and feature upregulation of danger-associated molecular patterns and skin barrier regulators. The defining features of PC-associated PPK are reproduced in mice null for keratin 16 (Krt16), which is commonly mutated in PC patients. Here, we have shown that PPK onset is preceded by oxidative stress in footpad skin of Krt16-/- mice and correlates with an inability of keratinocytes to sustain nuclear factor erythroid-derived 2 related factor 2-dependent (NRF2-dependent) synthesis of the cellular antioxidant glutathione (GSH). Additionally, examination of plantar skin biopsies from individuals with PC confirmed the presence of high levels of hypophosphorylated NRF2 in lesional tissue. In Krt16-/- mice, genetic ablation of Nrf2 worsened spontaneous skin lesions and accelerated PPK development in footpad skin. Hypoactivity of NRF2 in Krt16-/- footpad skin correlated with decreased levels or activity of upstream NRF2 activators, including PKCδ, receptor for activated C kinase 1 (RACK1), and p21. Topical application of the NRF2 activator sulforaphane to the footpad of Krt16-/- mice prevented the development of PPK and normalized redox balance via regeneration of GSH from existing cellular pools. Together, these findings point to oxidative stress and dysfunctional NRF2 as contributors to PPK pathogenesis, identify K16 as a regulator of NRF2 activation, and suggest that pharmacological activation of NRF2 should be further explored for PC treatment.

Published

2016

2. Non-Invasive Intravital Imaging of siRNA-Mediated Mutant Keratin Gene Repression in Skin

Author

Robyn P. Hickerson, Manuel A. Flores, Tycho Speaker, Christopher H. Contag, Emilio Gonzalez-Gonzalez, Maria Fernanda Lara, and Roger L. Kaspar

Subjects

0301 basic medicine, Cancer Research, Small interfering RNA, Injections, Intradermal, Green Fluorescent Proteins, Mutant, Gene Expression, Biology, medicine.disease_cause, Cell Line, Mice, Protein Aggregates, 03 medical and health sciences, Genes, Reporter, Complementary DNA, Keratin, medicine, Animals, Humans, Pachyonychia congenita, Radiology, Nuclear Medicine and imaging, RNA, Small Interfering, Skin, chemistry.chemical_classification, Regulation of gene expression, Mutation, Wild type, medicine.disease, Molecular biology, Molecular Imaging, Repressor Proteins, 030104 developmental biology, Oncology, chemistry, Keratins, Mutant Proteins, Plasmids

Abstract

Small interfering RNAs (siRNAs) specifically and potently inhibit target gene expression. Pachyonychia congenita (PC) is a skin disorder caused by mutations in genes encoding keratin (K) 6a/b, K16, and K17, resulting in faulty intermediate filaments. A siRNA targeting a single nucleotide, PC-relevant mutation inhibits K6a expression and has been evaluated in the clinic with encouraging results. To better understand the pathophysiology of PC, and develop a model system to study siRNA delivery and visualize efficacy in skin, wild type (WT) and mutant K6a complementary DNAs (cDNAs) were fused to either enhanced green fluorescent protein or tandem tomato fluorescent protein cDNA to allow covisualization of mutant and WT K6a expression in mouse footpad skin using a dual fluorescence in vivo confocal imaging system equipped with 488 and 532 nm lasers. Expression of mutant K6a/reporter resulted in visualization of keratin aggregates, while expression of WT K6a/reporter led to incorporation into filaments. Addition of mutant K6a-specific siRNA resulted in inhibition of mutant, but not WT, K6a/reporter expression. Intravital imaging offers subcellular resolution for tracking functional activity of siRNA in real time and enables detailed analyses of therapeutic effects in individual mice to facilitate development of nucleic acid-based therapeutics for skin disorders.

Published

2015

3. Gene silencing following siRNA delivery to skin via coated steel microneedles: In vitro and in vivo proof-of-concept

Author

James Caradoc Birchall, Christopher H. Contag, Rosalind H.E. Chong, Emilio Gonzalez-Gonzalez, Sion Coulman, Roger L. Kaspar, Tycho Speaker, Rachel Hargest, and Maria Fernanda Lara

Subjects

Keratinocytes, Small interfering RNA, Microinjections, Drug Compounding, Green Fluorescent Proteins, Cell Culture Techniques, Pharmaceutical Science, Mice, Transgenic, Transfection, Skin Diseases, Article, Cell Line, Mice, Drug Delivery Systems, RNA interference, In vivo, medicine, Animals, Humans, Gene silencing, Gene Silencing, RNA, Messenger, RNA, Small Interfering, Skin, integumentary system, Chemistry, Equipment Design, Lamin Type A, Stainless Steel, Molecular biology, HaCaT, medicine.anatomical_structure, Needles, Cell culture, Keratinocyte

Abstract

The development of siRNA-based gene silencing therapies has significant potential for effectively treating debilitating genetic, hyper-proliferative or malignant skin conditions caused by aberrant gene expression. To be efficacious and widely accepted by physicians and patients, therapeutic siRNAs must access the viable skin layers in a stable and functional form, preferably without painful administration. In this study we explore the use of minimally-invasive steel microneedle devices to effectively deliver siRNA into skin. A simple, yet precise microneedle coating method permitted reproducible loading of siRNA onto individual microneedles. Following recovery from the microneedle surface, lamin A/C siRNA retained full activity, as demonstrated by significant reduction in lamin A/C mRNA levels and reduced lamin A/C protein in HaCaT keratinocyte cells. However, lamin A/C siRNA pre-complexed with a commercial lipid-based transfection reagent (siRNA lipoplex) was less functional following microneedle coating. As Accell-modified “self-delivery” siRNA targeted against CD44 also retained functionality after microneedle coating, this form of siRNA was used in subsequent in vivo studies, where gene silencing was determined in a transgenic reporter mouse skin model. Self-delivery siRNA targeting the reporter (luciferase/GFP) gene was coated onto microneedles and delivered to mouse footpad. Quantification of reporter mRNA and intravital imaging of reporter expression in the outer skin layers confirmed functional in vivo gene silencing following microneedle delivery of siRNA. The use of coated metal microneedles represents a new, simple, minimally-invasive, patient-friendly and potentially self-administrable method for the delivery of therapeutic nucleic acids to the skin.

Published

2013

4. Intravital Fluorescence Imaging of Small Interfering RNA–Mediated Gene Repression in a Dual Reporter Melanoma Xenograft Model

Author

Maria Fernanda Lara, Christopher H. Contag, Robyn P. Hickerson, Mu Li, Roger L. Kaspar, Alexander V. Vlassov, and Emilio Gonzalez-Gonzalez

Subjects

Small interfering RNA, Skin Neoplasms, Green Fluorescent Proteins, Gene Expression, Biology, Brief Communication, Biochemistry, Green fluorescent protein, Mice, Genes, Reporter, In vivo, RNA interference, Cell Line, Tumor, Drug Discovery, Gene expression, Genetics, Gene Knockdown Techniques, Animals, Humans, RNA, Small Interfering, Luciferases, Promoter Regions, Genetic, Melanoma, Molecular Biology, Gene knockdown, Lentivirus, Optical Imaging, Molecular biology, Nucleic acid, Molecular Medicine, RNA Interference, Neoplasm Transplantation

Abstract

Development of RNA interference (RNAi)-based therapeutics has been hampered by the lack of effective and efficient means of delivery. Reliable model systems for screening and optimizing delivery of RNAi-based agents in vivo are crucial for preclinical research aimed at advancing nucleic acid-based therapies. We describe here a dual fluorescent reporter xenograft melanoma model prepared by intradermal injection of human A375 melanoma cells expressing tandem tomato fluorescent protein (tdTFP) containing a small interfering RNA (siRNA) target site as well as enhanced green fluorescent protein (EGFP), which is used as a normalization control. Intratumoral injection of a siRNA specific to the incorporated siRNA target site, complexed with a cationic lipid that has been optimized for in vivo delivery, resulted in 65%±11% knockdown of tdTFP relative to EGFP quantified by in vivo imaging and 68%±10% by reverse transcription-quantitative polymerase chain reaction. No effect was observed with nonspecific control siRNA treatment. This model provides a platform on which siRNA delivery technologies can be screened and optimized in vivo.

Published

2012

5. Inhibition of CD44 Gene Expression in Human Skin Models, Using Self-Delivery Short Interfering RNA Administered by Dissolvable Microneedle Arrays

Author

Christopher H. Contag, Devin Leake, Leonard M. Milstone, Robyn P. Hickerson, Maria Fernanda Lara, Tycho Speaker, Roger L. Kaspar, and Emilio Gonzalez-Gonzalez

Subjects

Keratinocytes, Small interfering RNA, Transplantation, Heterologous, Gene Expression, Human skin, Mice, SCID, Biology, Mice, Genes, Reporter, Gene expression, Genetics, medicine, Animals, Humans, Polymethyl Methacrylate, Gene silencing, RNA, Small Interfering, Molecular Biology, Research Articles, Cells, Cultured, Skin, Reporter gene, integumentary system, Epidermis (botany), Immunohistochemistry, Molecular biology, Transplantation, Hyaluronan Receptors, medicine.anatomical_structure, Solubility, Needles, Polyvinyl Alcohol, Molecular Medicine, Female, Keratinocyte

Abstract

Treatment of skin disorders with short interfering RNA (siRNA)-based therapeutics requires the development of effective delivery methodologies that reach target cells in affected tissues. Successful delivery of functional siRNA to the epidermis requires (1) crossing the stratum corneum, (2) transfer across the keratinocyte membrane, followed by (3) incorporation into the RNA-induced silencing complex. We have previously demonstrated that treatment with microneedle arrays loaded with self-delivery siRNA (sd-siRNA) can achieve inhibition of reporter gene expression in a transgenic mouse model. Furthermore, treatment of human cultured epidermal equivalents with sd-siRNA resulted in inhibition of target gene expression. Here, we demonstrate inhibition of CD44, a gene that is uniformly expressed throughout the epidermis, by sd-siRNA both in vitro (cultured human epidermal skin equivalents) and in vivo (full-thickness human skin equivalents xenografted on immunocompromised mice). Treatment of human skin equivalents with CD44 sd-siRNA markedly decreased CD44 mRNA levels, which led to a reduction of the target protein as confirmed by immunodetection in epidermal equivalent sections with a CD44-specific antibody. Taken together, these results demonstrate that sd-siRNA, delivered by microneedle arrays, can reduce expression of a targeted endogenous gene in a human skin xenograft model.

Published

2012

6. Generic and Personalized RNAi-Based Therapeutics for a Dominant-Negative Epidermal Fragility Disorder

Author

Frances J.D. Smith, Deena M. Leslie Pedrioli, W.H. Irwin McLean, Christopher H. Contag, Dun Jack Fu, Roger L. Kaspar, and Emilio Gonzalez-Gonzalez

Subjects

Keratinocytes, Small interfering RNA, Mutant, Mice, Inbred Strains, Dermatology, Biology, Kidney, Biochemistry, Cell Line, Mice, 03 medical and health sciences, 0302 clinical medicine, RNA interference, Keratoderma, Palmoplantar, Epidermolytic, Keratin, Animals, Humans, Precision Medicine, RNA, Small Interfering, Allele, Luciferases, Molecular Biology, Gene, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Gene knockdown, Keratin-9, RNA, Genetic Therapy, Cell Biology, Molecular biology, 3. Good health, Disease Models, Animal, chemistry, 030220 oncology & carcinogenesis, Female, Epidermis

Abstract

Epidermolytic palmoplantar keratoderma (EPPK) is one of >30 autosomal-dominant human keratinizing disorders that could benefit from RNA interference (RNAi)-based therapy. EPPK is caused by mutations in the keratin 9 (KRT9) gene, which is exclusively expressed in thick palm and sole skin where there is considerable keratin redundancy. This, along with the fact that EPPK is predominantly caused by a few hotspot mutations, makes it an ideal proof-of-principle model skin disease to develop gene-specific, as well as mutation-specific, short interfering RNA (siRNA) therapies. We have developed a broad preclinical RNAi-based therapeutic package for EPPK containing generic KRT9 siRNAs and allele-specific siRNAs for four prevalent mutations. Inhibitors were systematically identified in vitro using a luciferase reporter gene assay and validated using an innovative dual-Flag/Strep-TagII quantitative immunoblot assay. siKRT9-1 and siKRT9-3 were the most potent generic K9 inhibitors, eliciting >85% simultaneous knockdown of wild-type and mutant K9 protein synthesis at picomolar concentrations. The allele-specific inhibitors displayed similar potencies and, importantly, exhibited strong specificities for their target dominant-negative alleles with little or no effect on wild-type K9. The most promising allele-specific siRNA, siR163Q-13, was tested in a mouse model and was confirmed to preferentially inhibit mutant allele expression in vivo.

Published

2012

7. In Vivo Sustained Release of siRNA from Solid Lipid Nanoparticles

Author

Devin Leake, Robyn P. Hickerson, Gunilla B. Jacobson, Emilio Gonzalez-Gonzalez, Richard N. Zare, Roger L. Kaspar, Tatsiana Lobovkina, and Christopher H. Contag

Subjects

Small interfering RNA, Materials science, General Engineering, General Physics and Astronomy, Nanoparticle, Pharmacology, Controlled release, Article, Nanocapsules, Diffusion, Mice, In vivo, Delayed-Action Preparations, Materials Testing, Drug delivery, Solid lipid nanoparticle, Biophysics, Animals, General Materials Science, Gene Silencing, RNA, Small Interfering, Nanocarriers, Triglycerides

Abstract

Small interfering RNA (siRNA) is a highly potent drug in gene-based therapy with a challenge of being delivered in a sustained manner. Nanoparticle drug delivery systems allow for incorporating and controlled release of therapeutic payloads. We demonstrate that solid lipid nanoparticles can incorporate and provide sustained release of siRNA. Tristearin solid lipid nanoparticles, made by nanoprecipitation, were loaded with siRNA (4.4–5.5 weight percent loading ratio) using a hydrophobic ion pairing approach that employs the cationic lipid DOTAP. Intradermal injection of these nanocarriers in mouse footpads resulted in prolonged siRNA release over a period of 10–13 days. In vitro cell studies showed that the released siRNA retained its activity. Nanoparticles developed in this study offer an alternative approach to polymeric nanoparticles for encapsulation and sustained delivery of siRNA with the advantage of being prepared from physiologically well-tolerated materials.

Published

2011

8. Development of Skin-Humanized Mouse Models of Pachyonychia Congenita

Author

Eulalia Baselga, Robyn P. Hickerson, Marta García, Roger L. Kaspar, Sancy A. Leachman, Fernando Larcher, and Marcela Del Rio

Subjects

Keratinocytes, Pathology, medicine.medical_specialty, Mice, Nude, Human skin, Dermatology, Biochemistry, Marked acanthosis, Mice, 030207 dermatology & venereal diseases, 03 medical and health sciences, Blister, 0302 clinical medicine, medicine, Animals, Humans, Pachyonychia congenita, Gene, Molecular Biology, Skin, 030304 developmental biology, 0303 health sciences, integumentary system, business.industry, Keratin-6, Keratin 6A, Cell Biology, Fibroblasts, medicine.disease, Phenotype, 3. Good health, Disease Models, Animal, Pachyonychia Congenita, Minor trauma, Mutation, Humanized mouse, Female, business

Abstract

Molecular characterization and assessment of therapeutic outcomes for inherited cutaneous disorders requires faithful preclinical models. In this study we report the establishment of two different skin-humanized pachyonychia congenita (PC) model systems, based on permanent engraftment of bioengineered skin equivalents generated from patient skin cells onto immunodeficient mice. Using keratinocytes and fibroblasts isolated from unaffected skin biopsies of two PC patients carrying the p.Asn171Lys mutation of the keratin 6a gene (KRT6A), we were able to regenerate PC-derived human skin that appeared phenotypically normal, but developed sustained PC features after the use of an acute hyperproliferative stimulus (i.e., tape stripping). In contrast, the use of keratinocytes from an affected area (i.e., plantar callus) from a different patient carrying the KRT6A mutation p.Asn171Asp led to a full recapitulation of the phenotype that included marked acanthosis and epidermal blistering after minor trauma. The ability to generate large numbers of PC skin-engrafted mice will enable the testing of novel pharmacological or gene-based therapies for this as yet untreatable disease.

Published

2011

9. Increased interstitial pressure improves nucleic acid delivery to skin enabling a comparative analysis of constitutive promoters

Author

Ryan Spitler, Robyn P. Hickerson, Christopher H. Contag, Roger L. Kaspar, Emilio Gonzalez-Gonzalez, and Hyejun Ra

Subjects

Keratinocytes, Injections, Intradermal, Stratum granulosum, Biology, Mice, Genes, Reporter, Pressure, Genetics, medicine, Fluorescence microscope, Stratum corneum, Animals, Promoter Regions, Genetic, Molecular Biology, Skin, Reporter gene, integumentary system, Genetic transfer, DNA, Genetic Therapy, Molecular biology, medicine.anatomical_structure, Microscopy, Fluorescence, Nucleic acid, Molecular Medicine, Female, Epidermis, Keratinocyte, Preclinical imaging, Plasmids

Abstract

Nucleic acid-based therapies hold great promise for treatment of skin disorders if delivery challenges can be overcome. To investigate one mechanism of nucleic acid delivery to keratinocytes, a fixed mass of expression plasmid was intradermally injected into mouse footpads in different volumes, and reporter expression was monitored by intravital imaging or skin sectioning. Reporter gene expression increased with higher delivery volumes, suggesting that pressure drives nucleic acid uptake into cells after intradermal injections similar to previously published studies for muscle and liver. For spatiotemporal analysis of reporter gene expression, a dual-axis confocal (DAC) fluorescence microscope was used for intravital imaging following intradermal injections. Individual keratinocytes expressing hMGFP were readily visualized in vivo and initially appeared to preferentially express in the stratum granulosum and subsequently migrate to the stratum corneum over time. Fluorescence microscopy of frozen skin sections confirmed the patterns observed by intravital imaging. Intravital imaging with the DAC microscope is a noninvasive method for probing spatiotemporal control of gene expression and should facilitate development and testing of new nucleic acid delivery technologies.

Published

2010

10. Stability Study of Unmodified siRNA and Relevance to Clinical Use

Author

Christopher H. Contag, Qian Wang, Emilio Gonzalez-Gonzalez, Robyn P. Hickerson, Devin Leake, Heini Ilves, Roger L. Kaspar, Brian H. Johnston, and Alexander V. Vlassov

Subjects

Small interfering RNA, RNA Stability, Transgene, Green Fluorescent Proteins, Mice, Transgenic, Biology, Skin Diseases, Cell Line, Mice, Genes, Reporter, RNA interference, Genetics, Animals, Humans, RNA, Small Interfering, Saliva, Molecular Biology, Polyacrylamide gel electrophoresis, Skin, Gel electrophoresis, Clinical Trials as Topic, RNA, Original Papers, Molecular biology, Cell culture, Molecular Medicine, Cattle, RNA Interference, Hair

Abstract

RNA interference offers enormous potential to develop therapeutic agents for a variety of diseases. To assess the stability of siRNAs under conditions relevant to clinical use with particular emphasis on topical delivery considerations, a study of three different unmodified siRNAs was performed. The results indicate that neither repeated freeze/thaw cycles, extended incubations (over 1 year at 21 degrees C), nor shorter incubations at high temperatures (up to 95 degrees C) have any effect on siRNA integrity as measured by nondenaturing polyacrylamide gel electrophoresis and functional activity assays. Degradation was also not observed following exposure to hair or skin at 37 degrees C. However, incubation in fetal bovine or human sera at 37 degrees C led to degradation and loss of activity. Therefore, siRNA in the bloodstream is likely inactivated, thereby limiting systemic exposure. Interestingly, partial degradation (observed by gel electrophoresis) did not always correlate with loss of activity, suggesting that partially degraded siRNAs retain full functional activity. To demonstrate the functional activity of unmodified siRNA, EGFP-specific inhibitors were injected into footpads and shown to inhibit preexisting EGFP expression in a transgenic reporter mouse model. Taken together, these data indicate that unmodified siRNAs are viable therapeutic candidates.

Published

2008

11. Hairpin ribozyme-antisense RNA constructs can act as molecular lassos

Author

Kevin O. Kisich, Tai Chih Kuo, Roger L. Kaspar, Anne Dallas, Brian H. Johnston, Alexander V. Vlassov, Heini Ilves, Sergei A. Kazakov, and Svetlana V. Balatskaya

Subjects

Base pair, Molecular Sequence Data, Biology, Jurkat Cells, Mice, 03 medical and health sciences, Circular RNA, RNA Precursors, Genetics, Animals, Humans, RNA, Antisense, RNA, Catalytic, RNA, Messenger, fas Receptor, RNA Processing, Post-Transcriptional, Gene, 030304 developmental biology, 0303 health sciences, Messenger RNA, Base Sequence, Tumor Necrosis Factor-alpha, 030302 biochemistry & molecular biology, Ribozyme, RNA, RNA, Circular, Molecular biology, 3. Good health, Cell biology, Antisense RNA, Alternative Splicing, Gene Expression Regulation, Protein Biosynthesis, biology.protein, Hairpin ribozyme

Abstract

We have developed a novel class of antisense agents, RNA Lassos, which are capable of binding to and circularizing around complementary target RNAs. The RNA Lasso consists of a fixed sequence derived from the hairpin ribozyme and an antisense segment whose size and sequence can be varied to base pair with accessible sites in the target RNA. The ribozyme catalyzes self-processing of the 5'- and 3'-ends of a transcribed Lasso precursor and ligates the processed ends to produce a circular RNA. The circular and linear forms of the self-processed Lasso coexist in an equilibrium that is dependent on both the Lasso sequence and the solution conditions. Lassos form strong, noncovalent complexes with linear target RNAs and form true topological linkages with circular targets. Lasso complexes with linear RNA targets were detected by denaturing gel electrophoresis and were found to be more stable than ordinary RNA duplexes. We show that expression of a fusion mRNA consisting of a sequence from the murine tumor necrosis factor-alpha (TNF-alpha) gene linked to luciferase reporter can be specifically and efficiently blocked by an anti-TNF Lasso. We also show in cell culture experiments that Lassos directed against Fas pre-mRNA were able to induce a change in alternative splicing patterns.

Published

2008

12. Therapeutic siRNAs for dominant genetic skin disorders including pachyonychia congenita

Author

Peter R. Hull, Roger L. Kaspar, Frances J.D. Smith, Sherri J. Bale, Dennis R. Roop, Leonard M. Milstone, Sancy A. Leachman, W.H. Irwin McLean, E. Birgitte Lane, and Robyn P. Hickerson

Subjects

Small interfering RNA, Genetic enhancement, Dermatology, Biology, Biochemistry, Genome, Article, Epidermolysis bullosa simplex, Pachyonychia, RNA interference, medicine, Animals, Humans, Point Mutation, Pachyonychia congenita, RNA, Small Interfering, Molecular Biology, Genetics, Clinical Trials as Topic, Models, Genetic, Keratin-6, Skin Diseases, Genetic, Genetic Therapy, medicine.disease, Disease Models, Animal, Pachyonychia Congenita, Cancer research, Human genome

Abstract

The field of science and medicine has experienced a flood of data and technology associated with the human genome project. Over 10,000 human diseases have been genetically defined, but little progress has been made with respect to the clinical application of this knowledge. A notable exception to this exists for pachyonychia congenita (PC), a rare, dominant-negative keratin disorder. The establishment of a non-profit organization, PC Project, has led to an unprecedented coalescence of patients, scientists, and physicians with a unified vision of developing novel therapeutics for PC. Utilizing the technological by-products of the human genome project, such as RNA interference (RNAi) and quantitative RT-PCR (qRT-PCR), physicians and scientists have collaborated to create a candidate siRNA therapeutic that selectively inhibits a mutant allele of KRT6A, the most commonly affected PC keratin. In vitro investigation of this siRNA demonstrates potent inhibition of the mutant allele and reversal of the cellular aggregation phenotype. In parallel, an allele-specific quantitative real-time RT-PCR assay has been developed and validated on patient callus samples in preparation for clinical trials. If clinical efficacy is ultimately demonstrated, this "first-in-skin" siRNA may herald a paradigm shift in the treatment of dominant-negative genetic disorders.

Published

2008

13. Delivery and Inhibition of Reporter Genes by Small Interfering RNAs in a Mouse Skin Model

Author

Pauline Chu, Heini Ilves, Qian Wang, Devin Leake, Roger L. Kaspar, Christopher H. Contag, and Brian H. Johnston

Subjects

Keratinocytes, Small interfering RNA, Time Factors, Genetic Vectors, Dermatology, Biology, Biochemistry, Cell Line, Mice, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Genes, Reporter, RNA interference, Gene expression, Animals, Humans, Bioluminescence imaging, RNA, Small Interfering, Luciferases, Molecular Biology, Gene, Skin, 030304 developmental biology, Mice, Inbred BALB C, 0303 health sciences, Reporter gene, Dose-Response Relationship, Drug, RNA, Cell Biology, Molecular biology, 3. Good health, RNA silencing, Gene Expression Regulation, Models, Animal, Female, Plasmids

Abstract

RNA interference offers the potential of a novel therapeutic approach for treating skin disorders. To this end, we investigated delivery of nucleic acids, including a plasmid expressing the reporter gene luciferase, to mouse skin by intradermal injection into footpads using in vivo bioluminescence imaging over multiple time points. In order to evaluate the ability of RNA interference to inhibit skin gene expression, reporter gene constructs were co-injected with specific or non-specific siRNAs and the in vivo effects measured. Our results revealed that specific unmodified and modified siRNAs (but not nonspecific matched controls) strongly inhibit reporter gene expression in mice. These results indicate that small interfering RNA, delivered locally as RNA directly or expressed from viral or non-viral vectors, may be effective agents for treating skin disorders.

Published

2007

14. Differential fates of biomolecules delivered to target cells via extracellular vesicles

Author

Masamitsu Kanada, Andrew Wang, Abdul Matin, Daniel Omar Frimannson, Michael Bachmann, Christopher H. Contag, Laura L. Bronsart, Manish J. Butte, Tobi L. Schmidt, Matthew D. Sylvester, Jonathan Hardy, and Roger L. Kaspar

Subjects

Cell signaling, Macromolecular Substances, Endosome, Apoptosis, Mice, Transgenic, Cell Communication, Phosphatidylserines, Biology, Exosomes, Microscopy, Atomic Force, Exosome, Polyethylene Glycols, Mice, Genes, Reporter, Commentaries, Animals, Humans, Gene Silencing, RNA, Messenger, Microscopy, Confocal, Multidisciplinary, Integrases, Tetraspanin 30, Microvesicle, Cell Membrane, Biological Transport, DNA, Extracellular vesicle, Transfection, Flow Cytometry, Apoptotic body, Lipids, Molecular biology, Microvesicles, Cell biology, HEK293 Cells, PNAS Plus, Microscopy, Fluorescence, Plasmids

Abstract

Extracellular vesicles (EVs), specifically exosomes and microvesicles (MVs), are presumed to play key roles in cell-cell communication via transfer of biomolecules between cells. The biogenesis of these two types of EVs differs as they originate from either the endosomal (exosomes) or plasma (MVs) membranes. To elucidate the primary means through which EVs mediate intercellular communication, we characterized their ability to encapsulate and deliver different types of macromolecules from transiently transfected cells. Both EV types encapsulated reporter proteins and mRNA but only MVs transferred the reporter function to recipient cells. De novo reporter protein expression in recipient cells resulted only from plasmid DNA (pDNA) after delivery via MVs. Reporter mRNA was delivered to recipient cells by both EV types, but was rapidly degraded without being translated. MVs also mediated delivery of functional pDNA encoding Cre recombinase in vivo to tissues in transgenic Cre-lox reporter mice. Within the parameters of this study, MVs delivered functional pDNA, but not RNA, whereas exosomes from the same source did not deliver functional nucleic acids. These results have significant implications for understanding the role of EVs in cellular communication and for development of EVs as delivery tools. Moreover, studies using EVs from transiently transfected cells may be confounded by a predominance of pDNA transfer.

Published

2015

15. Small Hairpin RNAs Efficiently Inhibit Hepatitis C IRES–Mediated Gene Expression in Human Tissue Culture Cells and a Mouse Model

Author

Heini Ilves, Christopher H. Contag, Brian H. Johnston, Qian Wang, and Roger L. Kaspar

Subjects

Time Factors, Hepatitis C virus, Genetic Vectors, Molecular Sequence Data, Genome, Viral, Biology, Transfection, medicine.disease_cause, Cell Line, Mice, Genes, Reporter, RNA interference, Drug Discovery, Gene expression, Genetics, medicine, Animals, Humans, Luciferase, Luciferases, Molecular Biology, Cells, Cultured, Pharmacology, Reporter gene, Binding Sites, Base Sequence, Dose-Response Relationship, Drug, fungi, RNA, Genetic Therapy, Hepatitis C, Virology, Disease Models, Animal, Internal ribosome entry site, Gene Expression Regulation, Molecular Medicine, RNA Interference, Ribosomes, Plasmids

Abstract

Treatment and prevention of hepatitis C virus (HCV) infections remain a major challenge for controlling this worldwide health problem; existing therapies are only partially effective and no vaccine is currently available. RNA interference offers the potential of a novel therapeutic approach for treating HCV infections. Toward this end, we evaluated small hairpin interfering RNAs (shRNAs) targeting the conserved internal ribosome entry site (IRES) element of the HCV genome for their ability to control gene expression in human cells and animals. We used a reporter gene plasmid in which firefly luciferase (fLuc) expression is dependent on the HCV IRES. Direct delivery of HCV IRES shRNAs efficiently blocked HCV IRES-mediated fLuc expression in transfected human 293FT cells as well as in a mouse model in which nucleic acids were delivered to liver cells by hydrodynamic transfection via the tail vein. These results indicate that shRNAs, delivered as RNA or expressed from viral or nonviral vectors, may be effective agents for the control of HCV and related viruses.

Published

2005

16. Keratin 16 regulates innate immunity in response to epidermal barrier breach

Author

Robyn P. Hickerson, Pierre A. Coulombe, Juliane C. Lessard, Roger L. Kaspar, Allan Balmain, Jeremy D. Rotty, and Sylvia Piña-Paz

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Type I keratin, Blotting, Western, Inflammation, Biology, Keratin 16, Real-Time Polymerase Chain Reaction, Electron, Type II keratin, Mice, Microscopy, Electron, Transmission, Psoriasis, epidermis, medicine, Genetics, Pachyonychia congenita, Transmission, Innate, 2.1 Biological and endogenous factors, Animals, Humans, Gene Regulatory Networks, Aetiology, skin and connective tissue diseases, Skin, DNA Primers, intermediate filament, Microscopy, Multidisciplinary, Innate immune system, integumentary system, Blotting, Gene Expression Profiling, Keratin-16, Immunity, Keratin-6, Biological Sciences, medicine.disease, Microarray Analysis, Immunity, Innate, Gene expression profiling, Pachyonychia Congenita, Immunology, medicine.symptom, Western

Abstract

Mutations in the type I keratin 16 (Krt16) and its partner type II keratin 6 (Krt6a, Krt6b) cause pachyonychia congenita (PC), a disorder typified by dystrophic nails, painful hyperkeratotic calluses in glabrous skin, and lesions involving other epithelial appendages. The pathophysiology of these symptoms and its relationship to settings in which Krt16 and Krt6 are induced in response to epidermal barrier stress are poorly understood. We report that hyperkeratotic calluses arising in the glabrous skin of individuals with PC and Krt16 null mice share a gene expression signature enriched in genes involved in inflammation and innate immunity, in particular damage-associated molecular patterns. Transcriptional hyper-activation of damage-associated molecular pattern genes occurs following de novo chemical or mechanical irritation to ear skin and in spontaneously arising skin lesions in Krt16 null mice. Genome-wide expression analysis of normal mouse tail skin and benign proliferative lesions reveals a tight, context-dependent coregulation of Krt16 and Krt6 with genes involved in skin barrier maintenance and innate immunity. Our results uncover a role for Krt16 in regulating epithelial inflammation that is relevant to genodermatoses, psoriasis, and cancer and suggest a avenue for the therapeutic management of PC and related disorders.

Published

2013

17. Translation initiation of ornithine decarboxylase and nucleocytoplasmic transport of cyclin D1 mRNA are increased in cells overexpressing eukaryotic initiation factor 4E

Author

Roger L. Kaspar, Igor B. Rosenwald, Nahum Sonenberg, Lee Gehrke, and Denis Rousseau

Subjects

Cytoplasm, Cyclin D, Eukaryotic Initiation Factor-4E, Cyclin A, Gene Expression, Cell Fractionation, Ornithine Decarboxylase, Transfection, Mice, Peptide Initiation Factors, Cyclins, Eukaryotic initiation factor, P-bodies, Animals, Humans, Initiation factor, Cyclin D1, RNA, Messenger, Peptide Chain Initiation, Translational, Cell Nucleus, Oncogene Proteins, Multidisciplinary, biology, EIF4E, Glyceraldehyde-3-Phosphate Dehydrogenases, 3T3 Cells, Molecular biology, Actins, Recombinant Proteins, Polyribosomes, biology.protein, Cyclin A2, HeLa Cells, Research Article

Abstract

The structure of m7GpppN (where N is any nucleotide), termed cap, is present at the 5' end of all eukaryotic cellular mRNAs (except organellar). The eukaryotic initiation factor 4E (eIF-4E) binds to the cap and facilitates the formation of translation initiation complexes. eIF-4E is implicated in control of cell growth, as its overexpression causes malignant transformation of rodent cells and deregulates HeLa cell growth. It was suggested that overexpression of eIF-4E results in the enhanced translation of poorly translated mRNAs that encode growth-promoting proteins. Indeed, enhanced expression of several proteins, including cyclin D1 and ornithine decarboxylase (ODC), was documented in eIF-4E-overexpressing NTH 3T3 cells. However, the mechanism underlying this increase has not been elucidated. Here, we studied the mode by which eIF-4E increases the expression of cyclin D1 and ODC. We show that the increase in the amount of cyclin D1 and ODC is directly proportional to the degree of eIF-4E overexpression. Two mechanisms, which are not mutually exclusive, are responsible for the increase. In eIF-4E-overexpressing cells the rate of translation initiation of ODC mRNA was increased inasmuch as the mRNA sedimented with heavier polysomes. For cyclin D1 mRNA, translation initiation was not increased, but rather its amount in the cytoplasm increased, without a significant increase in total mRNA. Whereas, in the parental NIH 3T3 cell line, a large proportion of the cyclin D1 mRNA was confined to the nucleus, in eIF-4E-overexpressing cells the vast majority of the mRNA was present in the cytoplasm. These results indicate that eIF-4E affects directly or indirectly mRNA nucleocytoplasmic transport, in addition to its role in translation initiation.

Published

1996

18. Visualization of plasmid delivery to keratinocytes in mouse and human epidermis

Author

Emilio Gonzalez-Gonzalez, Robyn P. Hickerson, Yeu-Chun Kim, Roger L. Kaspar, James Caradoc Birchall, Mark R. Prausnitz, Tycho Speaker, Ryan Spitler, Nancy C. Kirkiles-Smith, Ronghua Hu, Christopher H. Contag, Maria Fernanda Lara, Yanhua Liang, and Leonard M. Milstone

Subjects

Keratinocytes, Microinjections, Green Fluorescent Proteins, Transplantation, Heterologous, Human skin, Gene delivery, Biology, Transfection, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Drug Delivery Systems, Genes, Reporter, medicine, Bioluminescence imaging, Animals, Humans, Luciferases, 030304 developmental biology, 0303 health sciences, Reporter gene, Multidisciplinary, integumentary system, Melanoma, Skin Transplantation, medicine.disease, Molecular biology, Recombinant Proteins, 3. Good health, Cell biology, Microscopy, Fluorescence, Naked DNA, 030220 oncology & carcinogenesis, Luminescent Measurements, Nucleic acid, Female, Epidermis, Plasmids

Abstract

The accessibility of skin makes it an ideal target organ for nucleic acid-based therapeutics; however, effective patient-friendly delivery remains a major obstacle to clinical utility. A variety of limited and inefficient methods of delivering nucleic acids to keratinocytes have been demonstrated; further advances will require well-characterized reagents, rapid noninvasive assays of delivery, and well-developed skin model systems. Using intravital fluorescence and bioluminescence imaging and a standard set of reporter plasmids we demonstrate transfection of cells in mouse and human xenograft skin using intradermal injection and two microneedle array delivery systems. Reporter gene expression could be detected in individual keratinocytes, in real-time, in both mouse skin as well as human skin xenografts. These studies revealed that non-invasive intravital imaging can be used as a guide for developing gene delivery tools, establishing a benchmark for comparative testing of nucleic acid skin delivery technologies.

Published

2011

19. Biodegradable nanoparticles with sustained release of functional siRNA in skin

Author

Gunilla B. Jacobson, Richard N. Zare, Emilio Gonzalez-Gonzalez, Roger L. Kaspar, Devin Leake, Ryan Spitler, Rajesh R. Shinde, and Christopher H. Contag

Subjects

Small interfering RNA, Chemistry, Pharmaceutical Science, Nanotechnology, Biocompatible Materials, Mice, Transgenic, Biodegradable polymer, Green fluorescent protein, Cell biology, Mice, RNA interference, In vivo, Genes, Reporter, Drug delivery, Microscopy, Electron, Scanning, Gene silencing, Animals, Nanoparticles, Gene Silencing, RNA, Small Interfering, Drug carrier, Fluorescent Dyes, Skin

Abstract

A key challenge in developing RNAi-based therapeutics is efficient delivery of functional short interfering RNA (siRNA) to target cells. To address this need, we have used a supercritical CO2 process to incorporate siRNA in biodegradable polymer nanoparticles (NPs) for in vivo sustained release. By this means we have obtained complete encapsulation of the siRNA with minimal initial burst effect from the surface of the NPs. The slow release of a fluorescently labeled siRNA mimic (siGLO Red) was observed for up to 80 days in vivo after intradermal injection into mouse footpads. In vivo gene silencing experiments were also performed, showing reduction of GFP signal in the epidermis of a reporter transgenic mouse model, which demonstrates that the siRNA retained activity following release from the polymer NPs. 2010 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 99:4261-4266, 2010

Published

2010

20. Assessing delivery and quantifying efficacy of small interfering ribonucleic acid therapeutics in the skin using a dual-axis confocal microscope

Author

Sanjiv S. Gambhir, Emilio Gonzalez-Gonzalez, Olav Solgaard, Gordon S. Kino, Bryan Ronain Smith, Roger L. Kaspar, Christopher H. Contag, and Hyejun Ra

Subjects

Pathology, medicine.medical_specialty, Microscope, Confocal, Research Papers: Imaging, Green Fluorescent Proteins, Biomedical Engineering, Gene Expression, Mice, Transgenic, law.invention, Green fluorescent protein, Biomaterials, Mice, Drug Delivery Systems, In vivo, Confocal microscopy, law, Genes, Reporter, medicine, Animals, RNA, Small Interfering, Transdermal, Skin, Microscopy, Confocal, Chemistry, Foot, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Cell biology, Molecular imaging, Preclinical imaging

Abstract

Transgenic reporter mice and advances in imag- ing instrumentation are enabling real-time visualization of cellular mechanisms in living subjects and accelerating the development of novel therapies. Innovative confocal microscope designs are improving their utility for micro- scopic imaging of fluorescent reporters in living animals. We develop dual-axis confocal DAC microscopes for such in vivo studies and create mouse models where fluo- rescent proteins are expressed in the skin for the purpose of advancing skin therapeutics and transdermal delivery tools. Three-dimensional image volumes, through the dif- ferent skin compartments of the epidermis and dermis, can be acquired in several seconds with the DAC microscope in living mice, and are comparable to histologic analyses of reporter protein expression patterns in skin sections. In- travital imaging with the DAC microscope further enables visualization of green fluorescent protein GFP reporter gene expression in the skin over time, and quantification of transdermal delivery of small interfering RNA siRNA and therapeutic efficacy. Visualization of transdermal de- livery of nucleic acids will play an important role in the development of innovative strategies for treating skin pathologies. © 2010 Society of Photo-Optical Instrumentation Engineers.

Published

2010

21. Single-nucleotide-specific siRNA targeting in a dominant-negative skin model

Author

Robyn P. Hickerson, Christopher H. Contag, Frances J.D. Smith, Sancy A. Leachman, Devin Leake, Leonard M. Milstone, W.H. Irwin McLean, Robert Reeves, and Roger L. Kaspar

Subjects

Keratinocytes, Small interfering RNA, Carcinoma, Hepatocellular, Mutant, Down-Regulation, Gene Expression, Mice, Inbred Strains, Dermatology, Biology, Kidney, Transfection, Biochemistry, 03 medical and health sciences, Mice, 0302 clinical medicine, RNA interference, Cell Line, Tumor, Gene expression, Gene silencing, Animals, Humans, Luciferase, RNA, Small Interfering, Molecular Biology, 030304 developmental biology, 0303 health sciences, Liver Neoplasms, Keratin-6, RNA, Keratin 6A, Cell Biology, Genetic Therapy, Molecular biology, Disease Models, Animal, Pachyonychia Congenita, 030220 oncology & carcinogenesis

Abstract

RNA interference offers a novel approach for developing therapeutics for dominant-negative genetic disorders. The ability to inhibit expression of the mutant allele without affecting wild-type gene expression could be a powerful new treatment option. Targeting the single-nucleotide keratin 6a (K6a) N171K mutation responsible for the rare monogenic skin disorder pachyonychia congenita (PC), we demonstrate that small interfering RNAs (siRNAs) can potently and selectively block expression of mutant K6a. To test whether lead siRNAs could discriminate mutant mRNA in the presence of both wild-type and mutant forms, a dominant-negative PC cell culture model was developed. As predicted for a dominant-negative disease, simultaneous expression of both wild-type and mutant K6a resulted in defective keratin filament formation. Addition of mutant-specific siRNAs allowed normal filament formation, suggesting selective inhibition of mutant K6a. The effectiveness of our siRNA in skin was tested by co-delivering a firefly luciferase/mutant K6a bicistronic reporter construct and mutant-specific siRNAs to mouse footpads. Potent inhibition of the fluorescent reporter was demonstrated using the Xenogen IVIS200 in vivo imaging system. Additionally, wild type-specific siRNAs knocked down the expression of pre-existing endogenous K6a in human keratinocytes. These results suggest that efficient delivery of these "designer siRNAs" may allow effective treatment of numerous genetic disorders including PC.

Published

2007

22. Development of therapeutic siRNAs for pachyonychia congenita

Author

Devin Leake, Christopher H. Contag, Roger L. Kaspar, Robyn P. Hickerson, Robert Reeves, Frances J.D. Smith, Jane M. Sayers, and W.H. Irwin McLean

Subjects

Keratinocytes, Small interfering RNA, Dermatology, Biology, Biochemistry, Cell Line, Mice, RNA interference, Gene expression, medicine, Pachyonychia congenita, Animals, Humans, RNA, Small Interfering, Molecular Biology, 3' Untranslated Regions, Reporter gene, Keratin-6, Cell Biology, medicine.disease, Molecular biology, HaCaT, medicine.anatomical_structure, Pachyonychia Congenita, Knockout mouse, Cancer research, Female, Keratinocyte

Abstract

Pachyonychia congenita (PC) is an autosomal-dominant keratin disorder where the most painful, debilitating aspect is plantar keratoderma. PC is caused by mutations in one of four keratin genes; however, most patients carry K6a mutations. Knockout mouse studies suggest that ablation of one of the several K6 genes can be tolerated owing to compensatory expression of the others. Here, we have developed potent RNA interference against K6a as a paradigm for treating a localized dominant skin disorder. Four small interfering RNAs (siRNAs) were designed against unique sequences in the K6a 3′-untranslated region. We demonstrated near-complete ablation of endogenous K6a protein expression in two keratinocyte cell lines, HaCaT and NEB-1, by transient transfection of each of the four K6a siRNAs. The siRNAs were effective at very low, picomolar concentrations. One potent lead K6a inhibitor, which was highly specific for K6a, was tested in a mouse model where reporter gene constructs were injected intradermally into mouse paw and luciferase activity was used as an in vivo readout. Imaging in live mice using the Xenogen IVIS system demonstrated that the K6a-specific siRNA strongly inhibited bicistronic K6a-luciferase gene expression in vivo. These data suggest that siRNAs can specifically and very potently target mutated genes in the skin and support development of these inhibitors as potential therapeutics.

Published

2007

23. Inhibition of hepatitis C IRES-mediated gene expression by small hairpin RNAs in human hepatocytes and mice

Author

Devin Leake, Roger L. Kaspar, Brian H. Johnston, Alexander V. Vlassov, Christopher H. Contag, Qian Wang, Attila A. Seyhan, and Heini Ilves

Subjects

Hepatitis C virus, Gene Expression, Biology, medicine.disease_cause, Antiviral Agents, General Biochemistry, Genetics and Molecular Biology, Hepatitis C virus internal ribosome entry site, Small hairpin RNA, chemistry.chemical_compound, Mice, History and Philosophy of Science, RNA interference, Gene expression, medicine, Animals, Humans, RNA, Small Interfering, Cells, Cultured, General Neuroscience, RNA, Hepatitis C, Genetic Therapy, medicine.disease, Virology, Molecular biology, Internal ribosome entry site, chemistry, Hepatocytes

Abstract

The ability of small hairpin RNAs (shRNAs) to inhibit hepatitis C virus internal ribosome entry site (HCV IRES)-dependent gene expression was investigated in cultured cells and a mouse model. The results indicate that shRNAs, delivered as naked RNA or expressed from vectors, may be effective agents for the control of HCV and related viruses.

Published

2006

24. Complete, gene-specific siRNA libraries: Production and expression in mammalian cells

Author

Levente A. Egry, Attila A. Seyhan, Heini Ilves, Sergei A. Kazakov, Roger L. Kaspar, Brian H. Johnston, and Alexander V. Vlassov

Subjects

Ribonuclease III, Small interfering RNA, Trans-acting siRNA, Genetic Vectors, Method, Computational biology, Cell Line, Substrate Specificity, chemistry.chemical_compound, Animals, Deoxyribonuclease I, Humans, Genomic library, RNA, Small Interfering, Promoter Regions, Genetic, Molecular Biology, Gene, Gene Library, RNA, Double-Stranded, Genetics, biology, Base Sequence, RNA, RNA Polymerase III, DNA, RNA silencing, chemistry, biology.protein, RNA Interference, Dicer

Abstract

Short interfering RNAs (siRNAs) are widely used to silence the expression of specific genes. Current practice for designing effective siRNAs is to use algorithms based on sequence-efficacy correlations; however, there are many highly effective sequences that these algorithms do not anticipate. To ensure that the best siRNAs are identified, all possible gene-specific siRNA sequences of appropriate lengths should be screened in cell culture. Synthesizing and testing all such sequences individually is costly. A potentially much easier alternative is to prepare a mixture of all these sequences (a gene-specific library), express them in cells, select cells having the desired phenotype, and identify the siRNA contained within the selected cells. Here we describe two new methods for preparing and expressing such libraries. The first uses cloned Dicer or RNase III to digest gene-specific RNA duplexes to siRNAs, which are then converted to the corresponding DNA sequences by attaching RNA primers and performing reverse transcription-PCR. The second method involves partial DNase I digestion of gene-specific DNA, purification of a 20–30-bp fraction, and amplification by attaching DNA adapters followed by PCR. DNA libraries specific for TNF-α, DsRed, and part of the hepatitis C virus genome, generated by methods, were inserted into siRNA expression vectors between convergent human U6 and H1 promoters. Randomly selected clones from each library together with vectors expressing the corresponding target genes were cotransfected into 293FT cells and assayed for target gene inhibition. About 10%–20% of siRNAs represented in these libraries show significant inhibition of their target genes. Most of these inhibitory sequences are not predicted by existing algorithms.

Published

2005

25. Rapamycin induces binding activity to the terminal oligopyrimidine tract of ribosomal protein mRNA in rats

Author

Megumi Matsuda, Akiko Hayakawa, Hiroshi Kobayashi, Roger L. Kaspar, Sayoko Tamura, Hiromi Saito, Tomohito Kakegawa, and Makoto Ito

Subjects

Untranslated region, Male, Ribosomal Proteins, Translational efficiency, Biophysics, RNA-binding protein, Thymus Gland, Biology, Biochemistry, Tacrolimus, Ribosomal protein, Translational regulation, Animals, Parotid Gland, RNA, Messenger, Rats, Wistar, Molecular Biology, Sirolimus, Messenger RNA, Nuclear Proteins, RNA-Binding Proteins, Translation (biology), Molecular biology, Rats, Elongation factor, Pyrimidines, Protein Biosynthesis, Spectrophotometry, Ultraviolet, Lymph Nodes, 5' Untranslated Regions, Transcription Factors

Abstract

The immunosuppressant rapamycin selectively suppresses the translation of mRNAs containing a terminal oligopyrimidine (TOP) tract adjacent to the cap structure. trans -Acting factors that bind to the 5 ′ -untranslated region (5 ′ -UTR) of TOP mRNAs may be involved in selective translational repression. Some of these factors are regulated by rapamycin-responsive signaling pathways. To identify candidates for the selective trans -acting factor, we examined whether administration of rapamycin alters the binding activity of proteins that bind to RNA containing the TOP element of mouse ribosomal protein (r-protein) L32 mRNA. Preadministration with Freund's complete adjuvant (FCA) prior to rapamycin treatment resulted in increased translational efficiency of r-protein L32 mRNA in submaxillary lymph node (SLN; 2.3-fold), thymus (1.5-fold), and parotid gland (PG; 1.6-fold). Translation of r-protein L32 or elongation factor 1A mRNAs in SLN and PG from FCA-pretreated rats were sensitive to rapamycin administration and the binding ability of p56 was generally increased in extracts from these tissues. On the other hand, in thymus, rapamycin had no effect on the translational efficiency of TOP mRNAs and no p56 binding was detected in the extracts from FCA-pretreated animals. Coadministration of FK506, another immunosuppressive macrolide, increased the p56 TOP-RNA-binding activity and induced selective translational repression of TOP mRNAs in a dose-dependent manner, even in thymus. These findings indicate that p56 is a plausible candidate for the trans -acting factor responsible for regulating the translation of TOP mRNA by a rapamycin-sensitive pathway and that TOP mRNA translational regulation may be responsible for the tissue specificity of rapamycin.

Published

2002

26. Minimum requirements for substrates of mammalian tRNA 3' processing endoribonuclease

Author

Masato Tamura, Masayuki Nashimoto, and Roger L. Kaspar

Subjects

chemistry.chemical_classification, Base pair, Stereochemistry, Swine, Hydrolysis, Endoribonuclease, Wild type, RNA, RNA, Transfer, Arg, Cleavage (embryo), Biochemistry, Substrate Specificity, Evolution, Molecular, chemistry, Transfer RNA, Endoribonucleases, Anticodon, RNA Precursors, Animals, Nucleic Acid Conformation, Nucleotide, RNA Processing, Post-Transcriptional, Base Pairing, Alpha helix, Conserved Sequence

Abstract

Mammalian tRNA 3' processing endoribonuclease (3' tRNase) removes a 3' trailer after the discriminator nucleotide from precursor tRNA (pre-tRNA). To elucidate the minimum requirements for 3' tRNase substrates, we tested small pre-tRNA(Arg) substrates lacking the D and anticodon stem-loop domain for cleavage by purified pig 3' tRNase. A small pre-tRNA (R-ATW) composed of an acceptor stem, an extra loop, a T stem-loop domain, a discriminator nucleotide, and a 3' trailer was cleaved more efficiently than the full-length wild type. The catalytic efficiencies of three R-ATW derivatives, which were constructed to destroy the original T stem base pairs, were also higher than that of the full-length wild type. Pig 3' tRNase efficiently processed a "minihelix" (R-ATM5) that consists of a T stem-loop domain, an acceptor stem, a discriminator nucleotide, and a 3' trailer, while the enzyme never cleaved a "microhelix" that is composed of a T loop, an acceptor stem, a discriminator nucleotide, and a 3' trailer. Five R-ATM5 derivatives that have one to seven base substitutions in the T loop were all cleaved slightly more efficiently than the full-length wild type and slightly less efficiently than R-ATM5. A helix ("minihelixDelta1") one base pair smaller than minihelices was a good substrate, while small helices containing a continuous 10-base pair stem were poor substrates. The cleavage of these three small substrates occurred after the discriminator and one to three nucleotides downstream of the discriminator. From these results, we conclude that minimum substrates for efficient cleavage by mammalian 3' tRNase are minihelices or minihelicesDelta1, in which there seem to be no essential bases.

Published

1999

27. Long 5' leaders inhibit removal of a 3' trailer from a precursor tRNA by mammalian tRNA 3' processing endoribonuclease

Author

Duane R. Wesemann, Susanna Geary, Masayuki Nashimoto, Masato Tamura, and Roger L. Kaspar

Subjects

Genetics, Base Sequence, Stereochemistry, Nucleotides, Trailer, Endoribonuclease, Molecular Sequence Data, Processing efficiency, Biology, TRNA 3' processing endoribonuclease, Enzyme Activation, Transfer RNA, Endoribonucleases, RNA Precursors, Animals, RNA Processing, Post-Transcriptional, Research Article

Abstract

Mammalian tRNA 3' processing endoribonuclease (3' tRNase) can remove a 3' trailer from various pre-tRNAs without 5' leader nucleotides. To examine how 5[prime] leader sequences affect 3' processing efficiency, we performed in vitro 3' processing reactions with purified pig 3' tRNase and pre-tRNAArgs containing a 13-nt 3' trailer and a 5[prime] leader of various lengths. The 3' processing was slightly stimulated by 5[prime] leaders containing up to 7 nt, whereas leaders of 9 nt or longer severely inhibited the reaction. Structure probing indicated that the 5' leader sequences had little effect on pre-tRNA folding. Similar results were obtained using pre-tRNA(Val)s containing a 5' leader of various lengths. We also investigated whether 3'tRNase can remove 3' trailers that are stably base-paired with 5' leaders to form an extended acceptor stem. Even such small 5' leaders as 3 and 6 nt, when base-paired with a 3' trailer, severely hindered removal of the 3' trailer by 3' tRNase.

Published

1999

28. RNA heptamers that direct RNA cleavage by mammalian tRNA 3' processing endoribonuclease

Author

Masayuki Nashimoto, Roger L. Kaspar, Susanna Geary, and Masato Tamura

Subjects

Base pair, Stereochemistry, Endoribonuclease, Molecular Sequence Data, RNA, Transfer, Arg, Biology, Cleavage (embryo), Genes, env, Cell Line, Substrate Specificity, Mice, Endoribonucleases, Genetics, Animals, Gene, Base Sequence, RNA, Molecular biology, Genes, gag, Transfer RNA, HIV-1, Nucleic Acid Conformation, RNA, Viral, RNA Cleavage, Research Article

Abstract

Mammalian tRNA 3' processing endoribonuclease (3' tRNase) can recognize and cleave any target RNA that forms a precursor tRNA-like complex with another RNA. Various sets of RNA molecules were tested to identify the smallest RNA that can direct target RNA cleavage by 3' tRNase. A 3' half tRNAArgwas cleaved efficiently by 3' tRNase in the presence of small 5' half tRNAArgvariants, the D stem-loop region of which was partially deleted. Remarkably, 3' tRNase also cleaved the 3' half tRNAArgin the presence of a 7 nt 5' tRNAArg composed only of the acceptor stem region with a catalytic efficiency comparable with that of cleavage directed by an intact 5' half tRNAArg. The catalytic efficiency of cleavage directed by the heptamer decreased as the stability of the T stem-loop structures of 3' half tRNAArg variants decreased. No heptamer-directed cleavage of a 3' half tRNAArg without T stem base pairs was detected. A heptamer also directed cleavage of an HIV-1 RNA containing a stable hairpin structure. These findings suggest that in the presence of an RNA heptamer, 3' tRNase can discriminate and eliminate target RNAs that possess a stable hairpin adjacent to the heptamer binding sequence from a large complex RNA pool.

Published

1998

29. Eukaryotic translation initiation factor 4E regulates expression of cyclin D1 at transcriptional and post-transcriptional levels

Author

Nahum Sonenberg, Emmett V. Schmidt, Lee Gehrke, Philippe Leboulch, Igor B. Rosenwald, Dennis Rousseau, Irving M. London, Roger L. Kaspar, and Jane-Jane Chen

Subjects

Cyclin E, Transcription, Genetic, Cyclin D, Cyclin A, Cyclin B, Biochemistry, Culture Media, Serum-Free, Mice, Cyclin D1, Cyclin-dependent kinase, Peptide Initiation Factors, Cyclins, Animals, RNA, Messenger, RNA Processing, Post-Transcriptional, Molecular Biology, Oncogene Proteins, biology, Cell Biology, 3T3 Cells, Molecular biology, Cell biology, Blood, Eukaryotic Initiation Factor-4E, Gene Expression Regulation, Cyclin-dependent kinase complex, biology.protein, Cyclin A2, Cell Division

Abstract

Regulation of the cell cycle is orchestrated by cyclins and cyclin-dependent kinases. We have demonstrated previously that overexpression of eukaryotic translation initiation factor 4E (eIF-4E) in NIH 3T3 cells growing in 10% fetal calf serum leads to highly elevated levels of cyclin D1 protein without significant increase in cyclin D1 mRNA levels, suggesting that a post-transcriptional mechanism is involved. (Rosenwald, I. B., Lazaris-Karatzas, A., Sonenberg, N., and Schmidt, E. V. (1993) Mol. Cell. Biol. 13, 7358-7363). In the present research, we did not find any significant effect of eIF-4E on polysomal distribution of cyclin D1 mRNA. However, the total amount of cyclin D1 mRNA associated with polysomes was significantly increased by eIF-4E overexpression. Further, we determined that the levels of both cyclin D1 protein and mRNA are increased in serum-deprived cells overexpressing eIF-4E. Nuclear run-on experiments demonstrated that the rate of the cyclin D1 transcription is not down-regulated in serum-deprived cells overexpressing eIF-4E. Thus, elevated levels of eIF-4E may lead to increased transcription of the cyclin D1 gene, and this effect becomes visible when serum deprivation down-regulates the rate of cyclin D1 mRNA synthesis in control cells. However, artificial overexpression of cyclin D1 mRNA in serum-deprived cells in the absence of eIF-4E overexpression did not cause the elevation of cyclin D1 protein, and this overexpressed cyclin D1 mRNA accumulated in the nucleus, suggesting that one post-transcriptional role of eIF-4E is to transport cyclin D1 mRNA from the nucleus to cytoplasmic polysomes.

Published

1995