Your search keyword '"Luminescent Proteins"' showing total 23,302 results

151. Tunable and reversible drug control of protein production via a self-excising degron

Author

Chung, Hokyung K, Jacobs, Conor L, Huo, Yunwen, Yang, Jin, Krumm, Stefanie A, Plemper, Richard K, Tsien, Roger Y, and Lin, Michael Z

Subjects

Biochemistry and Cell Biology, Biological Sciences, Emerging Infectious Diseases, Hepatitis, Hepatitis - C, Infectious Diseases, Liver Disease, Digestive Diseases, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Good Health and Well Being, Amino Acid Sequence, Animals, Bacterial Proteins, Binding Sites, Carrier Proteins, Chlorocebus aethiops, Gene Expression Regulation, HEK293 Cells, HeLa Cells, Hepacivirus, Humans, Intracellular Signaling Peptides and Proteins, Isoquinolines, Luminescent Proteins, Molecular Sequence Data, Neurons, Primary Cell Culture, Protease Inhibitors, Protein Binding, Proteolysis, Rats, Rats, Sprague-Dawley, Recombinant Fusion Proteins, Sulfonamides, Vero Cells, Viral Nonstructural Proteins, Hela Cells, Medicinal and Biomolecular Chemistry, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

An effective method for direct chemical control over the production of specific proteins would be widely useful. We describe small molecule-assisted shutoff (SMASh), a technique in which proteins are fused to a degron that removes itself in the absence of drug, resulting in the production of an untagged protein. Clinically tested HCV protease inhibitors can then block degron removal, inducing rapid degradation of subsequently synthesized copies of the protein. SMASh allows reversible and dose-dependent shutoff of various proteins in multiple mammalian cell types and in yeast. We also used SMASh to confer drug responsiveness onto an RNA virus for which no licensed inhibitors exist. As SMASh does not require the permanent fusion of a large domain, it should be useful when control over protein production with minimal structural modification is desired. Furthermore, as SMASh involves only a single genetic modification and does not rely on modulating protein-protein interactions, it should be easy to generalize to multiple biological contexts.

Published

2015

152. Photoactivatable genetically encoded calcium indicators for targeted neuronal imaging

Author

Berlin, Shai, Carroll, Elizabeth C, Newman, Zachary L, Okada, Hitomi O, Quinn, Carson M, Kallman, Benjamin, Rockwell, Nathan C, Martin, Shelley S, Lagarias, J Clark, and Isacoff, Ehud Y

Subjects

Biological Sciences, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Animals, Calcium, Calcium Signaling, Cell Tracking, Cells, Cultured, Drosophila, Light, Luminescent Proteins, Microscopy, Fluorescence, Neurons, Optogenetics, Protein Engineering, Rats, Zebrafish, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

Circuit mapping requires knowledge of both structural and functional connectivity between cells. Although optical tools have been made to assess either the morphology and projections of neurons or their activity and functional connections, few probes integrate this information. We have generated a family of photoactivatable genetically encoded Ca(2+) indicators that combines attributes of high-contrast photolabeling with high-sensitivity Ca(2+) detection in a single-color protein sensor. We demonstrated in cultured neurons and in fruit fly and zebrafish larvae how single cells could be selected out of dense populations for visualization of morphology and high signal-to-noise measurements of activity, synaptic transmission and connectivity. Our design strategy is transferrable to other sensors based on circularly permutated GFP (cpGFP).

Published

2015

153. Ancient hot and cold genes and chemotherapy resistance emergence

Author

Wu, Amy, Zhang, Qiucen, Lambert, Guillaume, Khin, Zayar, Gatenby, Robert A, Kim, Hyunsung John, Pourmand, Nader, Bussey, Kimberly, Davies, Paul CW, Sturm, James C, and Austin, Robert H

Subjects

Genetics, Cancer, Biotechnology, Antineoplastic Agents, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cell Survival, DNA Mutational Analysis, Doxorubicin, Drug Resistance, Neoplasm, Gene Duplication, Genome, Human, Humans, Inhibitory Concentration 50, Luminescent Proteins, Microfluidics, Models, Statistical, Multiple Myeloma, Mutation, Neoplasms, Sequence Analysis, RNA, Transcriptome, cancer, emergence, ancient genes, cold, hot

Abstract

We use a microfabricated ecology with a doxorubicin gradient and population fragmentation to produce a strong Darwinian selective pressure that drives forward the rapid emergence of doxorubicin resistance in multiple myeloma (MM) cancer cells. RNA sequencing of the resistant cells was used to examine (i) emergence of genes with high de novo substitution densities (i.e., hot genes) and (ii) genes never substituted (i.e., cold genes). The set of cold genes, which were 21% of the genes sequenced, were further winnowed down by examining excess expression levels. Both the most highly substituted genes and the most highly expressed never-substituted genes were biased in age toward the most ancient of genes. This would support the model that cancer represents a revision back to ancient forms of life adapted to high fitness under extreme stress, and suggests that these ancient genes may be targets for cancer therapy.

Published

2015

154. Genetically-encoded sensors of protein hydrodynamics

Author

Hoepker, Alexander, Yan, Yuling, and Marriott, Gerard

Subjects

Animals, Biosensing Techniques, Fluorescence Resonance Energy Transfer, Gene Expression Regulation, High-Throughput Screening Assays, Humans, Hydrodynamics, Luminescent Proteins, Oncology and Carcinogenesis

Published

2015

155. Structural mechanism underlying capsaicin binding and activation of the TRPV1 ion channel.

Author

Yang, Fan, Xiao, Xian, Cheng, Wei, Yang, Wei, Yu, Peilin, Song, Zhenzhen, Yarov-Yarovoy, Vladimir, and Zheng, Jie

Subjects

Animals, Chickens, Rabbits, Humans, Mice, Rats, Capsaicin, Bacterial Proteins, Luminescent Proteins, Recombinant Fusion Proteins, Cryoelectron Microscopy, Patch-Clamp Techniques, Sequence Alignment, Ion Channel Gating, Species Specificity, Gene Expression, Amino Acid Sequence, Protein Binding, Sequence Homology, Amino Acid, Kinetics, Point Mutation, Molecular Sequence Data, TRPV Cation Channels, HEK293 Cells, Molecular Docking Simulation, Pain Research, Dental/Oral and Craniofacial Disease, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Biochemistry & Molecular Biology

Abstract

Capsaicin bestows spiciness by activating TRPV1 channel with exquisite potency and selectivity. Although a capsaicin-bound channel structure was previously resolved by cryo-EM at 4.2- to 4.5-Å resolution, capsaicin was registered as a small electron density, reflecting neither its chemical structure nor specific ligand-channel interactions--important details required for mechanistic understanding. We obtained the missing atomic-level details by iterative computation and confirmed them by systematic site-specific functional tests. We observed that the bound capsaicin takes a 'tail-up, head-down' configuration. The vanillyl and amide groups form specific interactions to anchor its bound position, while the aliphatic tail may sample a range of conformations, making it invisible in cryo-EM images. Capsaicin stabilizes TRPV1's open state by 'pull-and-contact' interactions between the vanillyl group and the S4-S5 linker. Our study provides a structural mechanism for the agonistic function of capsaicin and its analogs, and demonstrates an effective approach to obtain atomic-level information from cryo-EM structures.

Published

2015

156. Color-coding cancer and stromal cells with genetic reporters in a patient-derived orthotopic xenograft (PDOX) model of pancreatic cancer enhances fluorescence-guided surgery.

Author

Yano, S, Hiroshima, Y, Maawy, A, Kishimoto, H, Suetsugu, A, Miwa, S, Toneri, M, Yamamoto, M, Katz, MHG, Fleming, JB, Urata, Y, Tazawa, H, Kagawa, S, Bouvet, M, Fujiwara, T, and Hoffman, RM

Subjects

Animals, Mice, Transgenic, Mice, Nude, Pancreatic Neoplasms, Neoplasm Recurrence, Local, Luminescent Proteins, Green Fluorescent Proteins, Surgery, Computer-Assisted, Neoplasm Transplantation, Genes, Reporter, Genes, Reporter, Mice, Nude, Transgenic, Neoplasm Recurrence, Local, Surgery, Computer-Assisted, Oncology & Carcinogenesis, Oncology and Carcinogenesis

Abstract

Precise fluorescence-guided surgery (FGS) for pancreatic cancer has the potential to greatly improve the outcome in this recalcitrant disease. To achieve this goal, we have used genetic reporters to color code cancer and stroma cells in a patient-derived orthotopic xenograft (PDOX) model. The telomerase-dependent green fluorescent protein (GFP)-containing adenovirus OBP-401 was used to label the cancer cells of a pancreatic cancer PDOX. The PDOX was previously grown in a red fluorescent protein (RFP) transgenic mouse that stably labeled the PDOX stroma cells bright red. The color-coded PDOX model enabled FGS to completely resect the pancreatic tumors including stroma. Dual-colored FGS significantly prevented local recurrence, which bright-light surgery or single-color FGS could not. FGS, with color-coded cancer and stroma cells has important potential for improving the outcome of recalcitrant-cancer surgery.

Published

2015

157. Targeting tumors with a killer-reporter adenovirus for curative fluorescence-guided surgery of soft-tissue sarcoma

Author

Yano, Shuya, Miwa, Shinji, Kishimoto, Hiroyuki, Uehara, Fuminari, Tazawa, Hiroshi, Toneri, Makoto, Hiroshima, Yukihiko, Yamamoto, Mako, Urata, Yasuo, Kagawa, Shunsuke, Bouvet, Michael, Fujiwara, Toshiyoshi, and Hoffman, Robert M

Subjects

Cancer, Rare Diseases, Adenoviridae, Animals, Cell Line, Tumor, Cells, Cultured, Fluorescence, Genetic Vectors, Green Fluorescent Proteins, Luminescent Agents, Luminescent Proteins, Mice, Mice, Nude, Optical Imaging, Sarcoma, Experimental, Soft Tissue Neoplasms, Surgery, Computer-Assisted, soft tissue sarcoma, nude mice, fluorescence-guided surgery, adenovirus, OBP-401, Oncology and Carcinogenesis

Abstract

Fluorescence-guided surgery (FGS) of cancer is an area of intense interest. However, FGS of cancer has not yet been shown to be curative due to residual microscopic disease. Human fibrosarcoma HT1080 expressing red fluorescent protein (RFP) was implanted orthotopically in the quadriceps femoris muscle of nude mice. The tumor-bearing mice were injected with high and low-dose telomerase-dependent, green fluorescent protein (GFP)-containing adenovirus OBP-401, which labeled the tumor with GFP. Fluorescence-guided surgery (FGS) or bright light surgery (BLS) was then performed. OBP-401 could label soft-tissue sarcoma (STS) with GFP in situ, concordant with RFP. OBP-401-based FGS resulted in superior resection of STS in the orthotopic model of soft-tissue sarcoma, compared to BLS. High-dose administration of OBP-401 enabled FGS without residual sarcoma cells or local or metastatic recurrence, due to its dual effect of cancer-cell labeling with GFP and killing. High-dose OBP-401 based-FGS improved disease free survival (p = 0.00049) as well as preserved muscle function compared with BLS. High-dose OBP-401-based FGS could cure STS, a presently incurable disease. Since the parent virus of OBP-401, OBP-301, has been previously proven safe in a Phase I clinical trial, it is expected the OBP-401-FGS technology described in the present report should be translatable to the clinic in the near future.

Published

2015

158. Genetically encoded sensors of protein hydrodynamics and molecular proximity

Author

Hoepker, Alexander C, Wang, Ariel, Le Marois, Alix, Suhling, Klaus, Yan, Yuling, and Marriott, Gerard

Subjects

Bacterial Proteins, DNA Primers, Escherichia coli, Fluorescence Polarization, Fluorescence Resonance Energy Transfer, Genetic Engineering, Hydrodynamics, Image Processing, Computer-Assisted, Luminescent Proteins, Microscopy, Confocal, Molecular Probes, Multiprotein Complexes, Plasmids, Proteins, Thrombin, cdc42 GTP-Binding Protein, fluorescence anisotropy, FRET, fluorescent protein, protein sensor, FLIM

Abstract

The specialized light organ of the ponyfish supports the growth of the bioluminescent symbiont Photobacterium leiognathi. The bioluminescence of P. leiognathi is generated within a heteromeric protein complex composed of the bacterial luciferase and a 20-kDa lumazine binding protein (LUMP), which serves as a Förster resonance energy transfer (FRET) acceptor protein, emitting a cyan-colored fluorescence with an unusually long excited state lifetime of 13.6 ns. The long fluorescence lifetime and small mass of LUMP are exploited for the design of highly optimized encoded sensors for quantitative fluorescence anisotropy (FA) measurements of protein hydrodynamics. In particular, large differences in the FA values of the free and target-bound states of LUMP fusions appended with capture sequences of up to 20 kDa are used in quantitative FA imaging and analysis of target proteins. For example, a fusion protein composed of LUMP and a 5-kDa G protein binding domain is used as an FA sensor to quantify the binding of the GTP-bound cell division control protein 42 homolog (Cdc42) (21 kDa) in solution and within Escherichia coli. Additionally, the long fluorescence lifetime and the surface-bound fluorescent cofactor 6,7-dimethyl-8- (1'-dimethyl-ribityl) lumazine in LUMP are utilized in the design of highly optimized FRET probes that use Venus as an acceptor probe. The efficiency of FRET in a zero-length LUMP-Venus fusion is 62% compared to ∼ 31% in a related CFP-Venus fusion. The improved FRET efficiency obtained by using LUMP as a donor probe is used in the design of a FRET-optimized genetically encoded LUMP-Venus substrate for thrombin.

Published

2015

159. Myoblast cytonemes mediate Wg signaling from the wing imaginal disc and Delta-Notch signaling to the air sac primordium.

Author

Huang, Hai and Kornberg, Thomas B

Subjects

Myoblasts, Air Sacs, Embryo, Nonmammalian, Animals, Drosophila melanogaster, Fibroblast Growth Factors, Intracellular Signaling Peptides and Proteins, Drosophila Proteins, Luminescent Proteins, Green Fluorescent Proteins, Membrane Proteins, Signal Transduction, Gene Expression Regulation, Developmental, Protein Transport, Body Patterning, Larva, Genes, Reporter, Wnt1 Protein, Frizzled Receptors, Receptors, Notch, Imaginal Discs, Wings, Animal, D. melanogaster, Delta, Notch, Wingless, cell biology, cytoneme, developmental biology, diaphanous, frizzled, stem cells, Embryo, Nonmammalian, Gene Expression Regulation, Developmental, Genes, Reporter, Receptors, Wings, Animal, Biochemistry and Cell Biology

Abstract

The flight muscles, dorsal air sacs, wing blades, and thoracic cuticle of the Drosophila adult function in concert, and their progenitor cells develop together in the wing imaginal disc. The wing disc orchestrates dorsal air sac development by producing decapentaplegic and fibroblast growth factor that travel via specific cytonemes in order to signal to the air sac primordium (ASP). Here, we report that cytonemes also link flight muscle progenitors (myoblasts) to disc cells and to the ASP, enabling myoblasts to relay signaling between the disc and the ASP. Frizzled (Fz)-containing myoblast cytonemes take up Wingless (Wg) from the disc, and Delta (Dl)-containing myoblast cytonemes contribute to Notch activation in the ASP. Wg signaling negatively regulates Dl expression in the myoblasts. These results reveal an essential role for cytonemes in Wg and Notch signaling and for a signal relay system in the myoblasts.

Published

2015

160. Feedback in the brainstem: An excitatory disynaptic pathway for control of whisking

Author

Matthews, David W, Deschênes, Martin, Furuta, Takahiro, Moore, Jeffrey D, Wang, Fan, Karten, Harvey J, and Kleinfeld, David

Subjects

Dental/Oral and Craniofacial Disease, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Good Health and Well Being, Afferent Pathways, Animals, Brain Stem, Cholera Toxin, Choline O-Acetyltransferase, Feedback, Sensory, Glutamate Decarboxylase, Glycine Plasma Membrane Transport Proteins, Luminescent Proteins, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Neurons, Reflex, Spinal Cord, Synapses, Vagus Nerve, Vesicular Glutamate Transport Protein 2, Vesicular Inhibitory Amino Acid Transport Proteins, Vibrissae, AB_10013220, AB_2336126, AB_303884, AB_10003058, AB_90738, AB_10563390, active sensing, reflex, spinal nuclei, trigeminus, vibrissa, viral tracers, Zoology, Medical Physiology, Neurology & Neurosurgery

Abstract

Sensorimotor processing relies on hierarchical neuronal circuits to mediate sensory-driven behaviors. In the mouse vibrissa system, trigeminal brainstem circuits are thought to mediate the first stage of vibrissa scanning control via sensory feedback that provides reflexive protraction in response to stimulation. However, these circuits are not well defined. Here we describe a complete disynaptic sensory receptor-to-muscle circuit for positive feedback in vibrissa movement. We identified a novel region of trigeminal brainstem, spinal trigeminal nucleus pars muralis, which contains a class of vGluT2+ excitatory projection neurons involved in vibrissa motor control. Complementary single- and dual-labeling with traditional and virus tracers demonstrate that these neurons both receive primary inputs from vibrissa sensory afferent fibers and send monosynaptic connections to facial nucleus motoneurons that directly innervate vibrissa musculature. These anatomical results suggest a general role of disynaptic architecture in fast positive feedback for motor output that drives active sensation.

Published

2015

161. Monitoring Redox Dynamics in Living Cells with a Redox-Sensitive Red Fluorescent Protein

Author

Fan, Yichong, Chen, Zhijie, and Ai, Hui-wang

Subjects

1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Amino Acid Sequence, Biosensing Techniques, Cysteine, Disulfides, Fluorescence, Fluorescent Dyes, HEK293 Cells, Humans, Hydrogen-Ion Concentration, Luminescent Proteins, Molecular Sequence Data, Oxidation-Reduction, Plasmids, Sequence Homology, Amino Acid, Analytical Chemistry, Other Chemical Sciences

Abstract

Redox signaling and homeostasis are important for all forms of life on Earth. There has been great interest in monitoring redox dynamics in living cells and organisms as a mean to better understand redox biology in physiological and pathological conditions. Herein we report our recent results on the development of a genetically encoded redox-sensitive red fluorescent protein (rxRFP). We first identified a circularly permuted RFP (cpRFP) scaffold, which maintained its autocatalytic fluorescence, from a red fluorescent Ca(2+) sensor, R-GECO1. We then introduced cysteine residue pairs to the N- and C- termini of the cpRFP scaffold, and subsequently optimized the length and composition of the sequences adjacent to the cysteine residues. From these libraries, we identified rxRFP, showing up to a 4-fold fluorescence increase in the oxidized state compared to the reduced state at pH 7.4. We thoroughly characterized rxRFP in vitro, and expressed it in living mammalian cells to monitor redox dynamics. With its excitation peak at 576 nm and emission peak at 600 nm, rxRFP is one of the first genetically encoded red fluorescent probes that can sense general redox states.

Published

2015

162. Optogenetic perturbation of preBötzinger complex inhibitory neurons modulates respiratory pattern

Author

Sherman, David, Worrell, Jason W, Cui, Yan, and Feldman, Jack L

Subjects

Genetics, Neurosciences, Lung, Action Potentials, Animals, Channelrhodopsins, Glycine, Glycine Plasma Membrane Transport Proteins, Luminescent Proteins, Male, Medulla Oblongata, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microinjections, Neural Inhibition, Neurons, Opsins, Optogenetics, Phosphopyruvate Hydratase, Photic Stimulation, Respiration, Psychology, Cognitive Sciences, Neurology & Neurosurgery

Abstract

Inhibitory neurons make up a substantial fraction of the neurons in the preBötzinger complex (preBötC), a site that is critical for mammalian eupneic breathing. We investigated the role of glycinergic preBötC neurons in respiratory rhythmogenesis in mice using optogenetically targeted excitation and inhibition. Channelrhodopsin-2 (ChR2) or Archaerhodopsin (Arch) were expressed in glycinergic preBötC neurons of glycine transporter 2 (Glyt2, also known as Slc6a5)-Cre mice. In ChR2-transfected mice, brief inspiratory-phase bilateral photostimulation targeting the preBötC prematurely terminated inspiration, whereas expiratory-phase photostimulation delayed the onset of the next inspiration. Prolonged photostimulation produced apneas lasting as long as the light pulse. Inspiratory-phase photoinhibition in Arch-transfected mice during inspiration increased tidal volume without altering inspiratory duration, whereas expiratory-phase photoinhibition shortened the latency until the next inspiration. During persistent apneas, prolonged photoinhibition restored rhythmic breathing. We conclude that glycinergic preBötC neurons modulate inspiratory pattern and are important for reflex apneas, but that the rhythm can persist after substantial dampening of their activity.

Published

2015

163. Spatial Patterns of Persistent Neural Activity Vary with the Behavioral Context of Short-Term Memory

Author

Daie, Kayvon, Goldman, Mark S, and Aksay, Emre RF

Subjects

Biomedical and Clinical Sciences, Neurosciences, Eye Disease and Disorders of Vision, Behavioral and Social Science, Basic Behavioral and Social Science, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Action Potentials, Animals, Animals, Genetically Modified, Bacterial Proteins, Computer Simulation, Eye Movements, Homeodomain Proteins, Larva, Luminescent Proteins, Memory, Short-Term, Microphthalmia-Associated Transcription Factor, Models, Neurological, Mutation, Neurons, Rhombencephalon, Zebrafish, Zebrafish Proteins, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology

Abstract

A short-term memory can be evoked by different inputs and control separate targets in different behavioral contexts. To address the circuit mechanisms underlying context-dependent memory function, we determined through optical imaging how memory is encoded at the whole-network level in two behavioral settings. Persistent neural activity maintaining a memory of desired eye position was imaged throughout the oculomotor integrator after saccadic or optokinetic stimulation. While eye position was encoded by the amplitude of network activity, the spatial patterns of firing were context dependent: cells located caudally generally were most persistent following saccadic input, whereas cells located rostrally were most persistent following optokinetic input. To explain these data, we computationally identified four independent modes of network activity and found these were differentially accessed by saccadic and optokinetic inputs. These results show how a circuit can simultaneously encode memory value and behavioral context, respectively, in its amplitude and spatial pattern of persistent firing.

Published

2015

164. Axonal amyloid precursor protein and its fragments undergo somatodendritic endocytosis and processing

Author

Niederst, Emily D, Reyna, Sol M, and Goldstein, Lawrence SB

Subjects

Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Dementia, Brain Disorders, Acquired Cognitive Impairment, Neurodegenerative, Neurosciences, Aging, 2.1 Biological and endogenous factors, Underpinning research, 1.1 Normal biological development and functioning, Aetiology, Neurological, Amyloid Precursor Protein Secretases, Amyloid beta-Peptides, Amyloid beta-Protein Precursor, Animals, Axons, Benzodiazepinones, Cell Differentiation, Cell Line, Cells, Cultured, Dendrites, Embryonic Stem Cells, Endocytosis, Humans, Hydrazones, Luminescent Proteins, Mice, Inbred C57BL, Mice, Knockout, Microfluidic Analytical Techniques, Microscopy, Confocal, Oligopeptides, Peptide Fragments, Signal Transduction, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Deposition of potentially neurotoxic Aβ fragments derived from amyloid precursor protein (APP) at synapses may be a key contributor to Alzheimer's disease. However, the location(s) of proteolytic processing and subsequent secretion of APP fragments from highly compartmentalized, euploid neurons that express APP and processing enzymes at normal levels is not well understood. To probe the behavior of endogenous APP, particularly in human neurons, we developed a system using neurons differentiated from human embryonic stem cells, cultured in microfluidic devices, to enable direct biochemical measurements from axons. Using human or mouse neurons in these devices, we measured levels of Aβ, sAPPα, and sAPPβ secreted solely from axons. We found that a majority of the fragments secreted from axons were processed in the soma, and many were dependent on somatic endocytosis for axonal secretion. We also observed that APP and the β-site APP cleaving enzyme were, for the most part, not dependent on endocytosis for axonal entry. These data establish that axonal entry and secretion of APP and its proteolytic processing products traverse different pathways in the somatodendritic compartment before axonal entry.

Published

2015

165. Structured illumination with particle averaging reveals novel roles for yeast centrosome components during duplication

Author

Burns, Shannon, Avena, Jennifer S, Unruh, Jay R, Yu, Zulin, Smith, Sarah E, Slaughter, Brian D, Winey, Mark, and Jaspersen, Sue L

Subjects

Biochemistry and Cell Biology, Biological Sciences, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Cell Division, Centrosome, Genes, Reporter, Luminescent Proteins, Microscopy, Fluorescence, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Cdc31/centrin, S. cerevisiae, Sfi1, cell biology, centrosome, chromosomes, genes, single particle averaging, spindle pole body, structured illumination microscopy, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Duplication of the yeast centrosome (called the spindle pole body, SPB) is thought to occur through a series of discrete steps that culminate in insertion of the new SPB into the nuclear envelope (NE). To better understand this process, we developed a novel two-color structured illumination microscopy with single-particle averaging (SPA-SIM) approach to study the localization of all 18 SPB components during duplication using endogenously expressed fluorescent protein derivatives. The increased resolution and quantitative intensity information obtained using this method allowed us to demonstrate that SPB duplication begins by formation of an asymmetric Sfi1 filament at mitotic exit followed by Mps1-dependent assembly of a Spc29- and Spc42-dependent complex at its tip. Our observation that proteins involved in membrane insertion, such as Mps2, Bbp1, and Ndc1, also accumulate at the new SPB early in duplication suggests that SPB assembly and NE insertion are coupled events during SPB formation in wild-type cells.

Published

2015

166. Visualization of Positive Transcription Elongation Factor b (P-TEFb) Activation in Living Cells*

Author

Fujinaga, Koh, Luo, Zeping, Schaufele, Fred, and Peterlin, B Matija

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Apoptosis, Azacitidine, Bacterial Proteins, Cell-Free System, Genetic Complementation Test, Glycerol, HEK293 Cells, HeLa Cells, Histone Deacetylase Inhibitors, Humans, Hydroxamic Acids, Luminescent Proteins, Microscopy, Fluorescence, Plasmids, Positive Transcriptional Elongation Factor B, Protein Kinase C, Protein Structure, Tertiary, RNA-Binding Proteins, Ribonucleoproteins, Ribonucleoproteins, Small Nuclear, Time Factors, Transcription, Genetic, Vorinostat, Hela Cells, 7SK snRNP, drug screening, fluorescence, gene transcription, transcription elongation factor, Chemical Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

Regulation of transcription elongation by positive transcription elongation factor b (P-TEFb) plays a central role in determining the state of cell activation, proliferation, and differentiation. In cells, P-TEFb exists in active and inactive forms. Its release from the inactive 7SK small nuclear ribonucleoprotein complex is a critical step for P-TEFb to activate transcription elongation. However, no good method exists to analyze this P-TEFb equilibrium in living cells. Only inaccurate and labor-intensive cell-free biochemical assays are currently available. In this study, we present the first experimental system to monitor P-TEFb activation in living cells. We created a bimolecular fluorescence complementation assay to detect interactions between P-TEFb and its substrate, the C-terminal domain of RNA polymerase II. When cells were treated with suberoylanilide hydroxamic acid, which releases P-TEFb from the 7SK small nuclear ribonucleoprotein, they turned green. Other known P-TEFb-releasing agents, including histone deacetylase inhibitors, bromodomain and extraterminal bromodomain inhibitors, and protein kinase C agonists, also scored positive in this assay. Finally, we identified 5'-azacytidine as a new P-TEFb-releasing agent. This release of P-TEFb correlated directly with activation of human HIV and HEXIM1 transcription. Thus, our visualization of P-TEFb activation by fluorescent complementation assay could be used to find new P-TEFb-releasing agents, compare different classes of agents, and assess their efficacy singly and/or in combination.

Published

2015

167. An alternative means of retaining ocular structure and improving immunoreactivity for light microscopy studies.

Author

Sun, Ning, Shibata, Brad, Hess, John F, and FitzGerald, Paul G

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Eye Disease and Disorders of Vision, Neurosciences, Biotechnology, Eye, Animals, Antigens, Fixatives, Formaldehyde, Freeze Substitution, Histological Techniques, Immunohistochemistry, In Situ Hybridization, Luminescent Proteins, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microscopy, Staining and Labeling, Tissue Fixation, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeSeveral properties of ocular tissue make fixation for light microscopy problematic. Because the eye is spherical, immersion fixation necessarily results in a temporal gradient of fixation, with surfaces fixing more rapidly and thoroughly than interior structures. The problem is compounded by the fact that the layers of the eye wall are compositionally quite different, resulting in different degrees of fixation-induced shrinkage and distortion. Collectively, these result in non-uniform preservation, as well as buckling and/or retinal detachment. This gradient problem is most acute for the lens, where the density of proteins can delay fixation of the central lens for days, and where the fixation gradient parallels the age gradient of lens cells, which complicates data interpretation. Our goal was to identify a simple method for minimizing some of the problems arising from immersion fixation, which avoided covalent modification of antigens, retained high quality structure, and maintained tissue in a state that is amenable to common cytochemical techniques.MethodsA simple and inexpensive derivative of the freeze-substitution approach was developed and compared to fixation by immersion in formalin. Preservation of structure, immunoreactivity, GFP and tdTomato fluorescence, lectin reactivity, outer segment auto fluorescence, Click-iT chemistry, compatibility with in situ hybdrdization, and the ability to rehydrate eyes after fixation by freeze substitution for subsequent cryo sectioning were assessed.ResultsAn inexpensive and simple variant of the freeze substitution approach provides excellent structural preservation for light microscopy, and essentially eliminates ocular buckling, retinal detachment, and outer segment auto-fluorescence, without covalent modification of tissue antigens. The approach shows a notable improvement in preservation of immunoreactivity. TdTomato intrinsic fluorescence is also preserved, as is compatibility with in situ hybridization, lectin labeling, and the Click-iT chemistry approach to labeling the thymidine analog EdU. On the negative side, this approach dramatically reduced intrinsic GFP fluorescence.ConclusionsA simple, cost-effective derivative of the freeze substitution process is described that is of particular value in the study of rodent or other small eyes, where fixation gradients, globe buckling, retinal detachment, differential shrinkage, autofluorescence, and tissue immunoreactivity have been problematic.

Published

2015

168. Use of a conformational switching aptamer for rapid and specific ex vivo identification of central nervous system lymphoma in a xenograft model.

Author

Georges, Joseph F, Liu, Xiaowei, Eschbacher, Jennifer, Nichols, Joshua, Mooney, Michael A, Joy, Anna, Spetzler, Robert F, Feuerstein, Burt G, Preul, Mark C, Anderson, Trent, Yan, Hao, and Nakaji, Peter

Subjects

Cell Line, Tumor, Animals, Humans, Rats, Nude, Lymphoma, B-Cell, Astrocytoma, Central Nervous System Neoplasms, Luminescent Proteins, Fluorescent Dyes, Microscopy, Confocal, Intraoperative Period, Transplantation, Heterologous, Fluorometry, Flow Cytometry, Molecular Diagnostic Techniques, Sensitivity and Specificity, Reproducibility of Results, Nucleic Acid Conformation, Aptamers, Nucleotide, Cell Line, Tumor, Rats, Nude, Lymphoma, B-Cell, Microscopy, Confocal, Transplantation, Heterologous, Aptamers, Nucleotide, General Science & Technology

Abstract

Improved tools for providing specific intraoperative diagnoses could improve patient care. In neurosurgery, intraoperatively differentiating non-operative lesions such as CNS B-cell lymphoma from operative lesions can be challenging, often necessitating immunohistochemical (IHC) procedures which require up to 24-48 hours. Here, we evaluate the feasibility of generating rapid ex vivo specific labeling using a novel lymphoma-specific fluorescent switchable aptamer. Our B-cell lymphoma-specific switchable aptamer produced only low-level fluorescence in its unbound conformation and generated an 8-fold increase in fluorescence once bound to its target on CD20-positive lymphoma cells. The aptamer demonstrated strong binding to B-cell lymphoma cells within 15 minutes of incubation as observed by flow cytometry. We applied the switchable aptamer to ex vivo xenograft tissue harboring B-cell lymphoma and astrocytoma, and within one hour specific visual identification of lymphoma was routinely possible. In this proof-of-concept study in human cell culture and orthotopic xenografts, we conclude that a fluorescent switchable aptamer can provide rapid and specific labeling of B-cell lymphoma, and that developing aptamer-based labeling approaches could simplify tissue staining and drastically reduce time to histopathological diagnoses compared with IHC-based methods. We propose that switchable aptamers could enhance expeditious, accurate intraoperative decision-making.

Published

2015

169. Inactivation of the Progesterone Receptor in Mx1+ Cells Potentiates Osteogenesis in Calvaria but Not in Long Bone.

Author

Zhong, Zhendong A, Sun, Weihua, Chen, Haiyan, Zhang, Hongliang, Lane, Nancy E, and Yao, Wei

Subjects

Growth Plate, Femur, Skull, Cells, Cultured, Chondrocytes, Osteoblasts, Pluripotent Stem Cells, Bone Marrow, Animals, Mice, Transgenic, Mice, Progesterone, Integrases, Interferon-alpha, Luminescent Proteins, Green Fluorescent Proteins, Receptors, Progesterone, Recombinant Fusion Proteins, Crosses, Genetic, Organ Specificity, Gene Expression Regulation, Developmental, Osteogenesis, Sex Characteristics, Genes, Reporter, Female, Male, Promoter Regions, Genetic, Gene Knockout Techniques, Mesenchymal Stromal Cells, Myxovirus Resistance Proteins, Biomarkers, Mesenchymal Stem Cells, Cells, Cultured, Transgenic, Receptors, Crosses, Genetic, Gene Expression Regulation, Developmental, Genes, Reporter, Promoter Regions, MD Multidisciplinary, General Science & Technology

Abstract

The effect of progesterone on bone remains elusive. We previously reported that global progesterone receptor (PR) knockout mice displayed high bone mass phenotype, suggesting that PR influences bone growth and modeling. Recently, Mx1+ cells were characterized to be mesenchymal stem cell-like pluripotent Cells. The aim of this study was to evaluate whether the PR in Mx1+ cells regulates osteogenesis. Using the Mx1-Cre;mT/mG reporter mouse model, we found that the calvarial cells exhibited minimal background Mx1-Cre activity prior to Cre activation by IFNα treatment as compared to the bone marrow stromal cells. IFNα treatment significantly activated Mx1-Cre in the calvarial cells. When the PR gene was deleted in the Mx1-Cre;PR-flox calvarial cells in vitro, significantly higher levels of expression of osteoblast maturation marker genes (RUNX2, Osteocalcin, and Dmp1) and osteogenic potential were detected. The PR-deficient calvariae exhibited greater bone volume, especially in the males. Although Mx1-Cre activity could be induced on the bone surface in vivo, the Mx1+ cells did not differentiate into osteocytes in long bones. Bone volumes at the distal femurs and the bone turnover marker serum Osteocalcin were similar between the Mx1-Cre;PR-flox mutant mice and the corresponding wild types in both sexes. In conclusion, our data demonstrates that blocking progesterone signaling via PRs in calvarial Mx1+ cells promoted osteoblast differentiation in the calvaria. Mx1+ was expressed by heterogeneous cells in bone marrow and did not differentiate into osteocyte during long bone development in vivo. Selectively inactivating the PR gene in Mx1+ cells affected the membrane bone formation but did not affect peripheral skeletal homeostasis.

Published

2015

170. Type IV pili interactions promote intercellular association and moderate swarming of Pseudomonas aeruginosa

Author

Anyan, Morgen E, Amiri, Aboutaleb, Harvey, Cameron W, Tierra, Giordano, Morales-Soto, Nydia, Driscoll, Callan M, Alber, Mark S, and Shrout, Joshua D

Subjects

2.2 Factors relating to the physical environment, Aetiology, Bacterial Adhesion, Biofilms, Computational Biology, Computer Simulation, Fimbriae, Bacterial, Flagella, Green Fluorescent Proteins, Luminescent Proteins, Microbial Interactions, Microscopy, Confocal, Models, Biological, Movement, Pseudomonas aeruginosa, biofilms, collective motion, computational model, predictive simulations, self-organization

Abstract

Pseudomonas aeruginosa is a ubiquitous bacterium that survives in many environments, including as an acute and chronic pathogen in humans. Substantial evidence shows that P. aeruginosa behavior is affected by its motility, and appendages known as flagella and type IV pili (TFP) are known to confer such motility. The role these appendages play when not facilitating motility or attachment, however, is unclear. Here we discern a passive intercellular role of TFP during flagellar-mediated swarming of P. aeruginosa that does not require TFP extension or retraction. We studied swarming at the cellular level using a combination of laboratory experiments and computational simulations to explain the resultant patterns of cells imaged from in vitro swarms. Namely, we used a computational model to simulate swarming and to probe for individual cell behavior that cannot currently be otherwise measured. Our simulations showed that TFP of swarming P. aeruginosa should be distributed all over the cell and that TFP-TFP interactions between cells should be a dominant mechanism that promotes cell-cell interaction, limits lone cell movement, and slows swarm expansion. This predicted physical mechanism involving TFP was confirmed in vitro using pairwise mixtures of strains with and without TFP where cells without TFP separate from cells with TFP. While TFP slow swarm expansion, we show in vitro that TFP help alter collective motion to avoid toxic compounds such as the antibiotic carbenicillin. Thus, TFP physically affect P. aeruginosa swarming by actively promoting cell-cell association and directional collective motion within motile groups to aid their survival.

Published

2014

171. Essential Role of Presynaptic NMDA Receptors in Activity-Dependent BDNF Secretion and Corticostriatal LTP

Author

Park, Hyungju, Popescu, Andrei, and Poo, Mu-ming

Subjects

Neurosciences, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Animals, Antibodies, Brain-Derived Neurotrophic Factor, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Cerebral Cortex, Corpus Striatum, Excitatory Amino Acid Antagonists, Long-Term Potentiation, Luminescent Proteins, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microscopy, Confocal, Models, Biological, Neurons, Receptor, trkB, Receptors, N-Methyl-D-Aspartate, Synapses, Time Factors, Valine, Psychology, Cognitive Sciences, Neurology & Neurosurgery

Abstract

Activation of N-methyl-D-aspartate subtype of glutamate receptors (NMDARs) in postsynaptic dendrites is required for long-term potentiation (LTP) of many excitatory synapses, but the role of presynaptic axonal NMDARs in synaptic plasticity remains to be clarified. Here we report that axonal NMDARs play an essential role in LTP induction at mouse corticostriatal synapses by triggering activity-induced presynaptic secretion of brain-derived neurotrophic factor (BDNF). Genetic depletion of either BDNF or the NMDAR subunit GluN1 specifically in cortical axons abolished corticostriatal LTP in response to theta burst stimulation (TBS). Furthermore, functional axonal NMDARs were required for TBS-triggered prolonged axonal Ca(2+) elevation and BDNF secretion, supporting the notion that activation of axonal NMDARs induces BDNF secretion via enhancing Ca(2+) signals in the presynaptic nerve terminals. These results demonstrate that presynaptic NMDARs are equally important as postsynaptic NMDARs in LTP induction of corticostriatal synapses due to their role in mediating activity-induced presynaptic BDNF secretion.

Published

2014

172. The transcriptional landscape of mouse beta cells compared to human beta cells reveals notable species differences in long non-coding RNA and protein-coding gene expression

Author

Benner, Christopher, van der Meulen, Talitha, Cacéres, Elena, Tigyi, Kristof, Donaldson, Cynthia J, and Huising, Mark O

Subjects

Autoimmune Disease, Genetics, Diabetes, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, Animals, Flow Cytometry, Gene Library, Glucagon, Glucagon-Secreting Cells, Humans, Insulin-Secreting Cells, Luminescent Proteins, Mice, RNA, RNA, Long Noncoding, Receptors, Cell Surface, Sequence Analysis, RNA, Transcription Factors, Transcriptome, Beta cell, Alpha cell, Pancreatic islet, Insulin, Ucn3, Crh, lncRNA, RNA-seq, Prolactin receptor, Prlr, Growth hormone receptor, Ghr, Ciliary neurotrophic factor receptor, Cntfr, Islet amyloid polypeptide, Iapp, Amylin, Ets1, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics

Abstract

BackgroundInsulin producing beta cell and glucagon producing alpha cells are colocalized in pancreatic islets in an arrangement that facilitates the coordinated release of the two principal hormones that regulate glucose homeostasis and prevent both hypoglycemia and diabetes. However, this intricate organization has also complicated the determination of the cellular source(s) of the expression of genes that are detected in the islet. This reflects a significant gap in our understanding of mouse islet physiology, which reduces the effectiveness by which mice model human islet disease.ResultsTo overcome this challenge, we generated a bitransgenic reporter mouse that faithfully labels all beta and alpha cells in mouse islets to enable FACS-based purification and the generation of comprehensive transcriptomes of both populations. This facilitates systematic comparison across thousands of genes between the two major endocrine cell types of the islets of Langerhans whose principal hormones are of cardinal importance for glucose homeostasis. Our data leveraged against similar data for human beta cells reveal a core common beta cell transcriptome of 9900+ genes. Against the backdrop of overall similar beta cell transcriptomes, we describe marked differences in the repertoire of receptors and long non-coding RNAs between mouse and human beta cells.ConclusionsThe comprehensive mouse alpha and beta cell transcriptomes complemented by the comparison of the global (dis)similarities between mouse and human beta cells represent invaluable resources to boost the accuracy by which rodent models offer guidance in finding cures for human diabetes.

Published

2014

173. Patent Issued for KCC2 expression enhancing compounds and uses thereof (USPTO 12053465).

Abstract

The Whitehead Institute for Biomedical Research has been granted a patent for compounds that can enhance the expression of the KCC2 gene, which is important for maintaining the balance between excitatory and inhibitory signaling in the brain. This gene has been linked to various neurological diseases and psychiatric disorders, including autism spectrum disorders and Rett syndrome. The patent describes a screening platform that uses neurons to identify compounds that can enhance KCC2 expression, potentially leading to the development of therapies for these conditions. The patent also provides examples of specific compounds that can be used for treatment, including kinase inhibitors and GABA reuptake inhibitors. [Extracted from the article]

Published

2024

174. New Cytomegalovirus Study Findings Have Been Published by a Researcher at Friedrich-Alexander University of Erlangen-Nurnberg (FAU) (Establishment of a Luciferase-Based Reporter System to Study Aspects of Human Cytomegalovirus Infection,...).

Abstract

A recent study conducted at Friedrich-Alexander University of Erlangen-Nurnberg (FAU) in Germany has focused on human cytomegalovirus (HCMV), a medically important pathogen. The researchers developed a recombinant version of the HCMV strain TB40 that expresses firefly luciferase, allowing for quantitative measurement of viral replication. The study found that this reporter system is effective in primary human cells, provides easily quantifiable viral signals, and reflects the kinetics of viral replication. The researchers also demonstrated the system's reliability in determining antiviral compound efficacy. This research contributes to our understanding of HCMV infection and may have implications for vaccine development and antiviral drug targeting. [Extracted from the article]

Published

2024

175. Researcher at Erasmus University Medical Center Cancer Institute Has Published New Study Findings on Gene Therapy (A Novel Luciferase-Based Reporter Gene Technology for Simultaneous Optical and Radionuclide Imaging of Cells).

Abstract

A new study conducted at the Erasmus University Medical Center Cancer Institute in Rotterdam, Netherlands, has developed a novel luciferase-based reporter gene technology for simultaneous optical and radionuclide imaging of cells. The researchers used a complementation-based reporter gene system that allowed for the imaging of radiotracer uptake in mice using SPECT/CT and bioluminescence. The findings of this study demonstrate the potential of this new approach to advance cell and gene therapies from the laboratory to clinical applications. The research was supported by the European Commission. [Extracted from the article]

Published

2024

176. New Gastric Cancer Study Results from Department of Laboratory Medicine Described (Mir-497-5p Expression and Biological Activity In Gastric Cancer).

Abstract

A recent study conducted in Jiangsu, People's Republic of China, investigated the expression and biological roles of miR-497-5p in gastric cancer (GC). The study found that miR-497-5p was significantly reduced in GC tissues and cell lines compared to normal tissues and cells. The researchers also discovered that miR-497-5p inhibited the malignant features of GC cells by targeting ERBB2. These findings suggest that miR-497-5p could potentially be used as a therapeutic target for gastric cancer. [Extracted from the article]

Published

2024

177. New Findings from Three Gorges University in the Area of Leukemia Described (Mir-204 Regulates the Biological Behavior of Childhood Leukemia Cells By Binding To 3'utr End of Target Gene and Reducing the Level of the Gene).

Subjects

FLUORESCENT proteins, HEPATOCYTE growth factor, CANCER cell proliferation, INHIBITION of cellular proliferation, COENZYMES, LUCIFERASES

Abstract

A recent report from Three Gorges University in Yichang, China discusses the impact of mir-204 on childhood leukemia cells. The study found that mir-204 reduces the expression of hepatocyte growth factor (HGF), which inhibits cell proliferation, invasion, and migration, while promoting apoptosis and regulating the behavior of leukemia cells. The research involved 112 children with leukemia and utilized techniques such as real-time polymerase chain reaction (RT-PCR) and flow cytometry to evaluate the effects of mir-204 on cell behavior. This study provides valuable insights into potential therapeutic targets for childhood leukemia. [Extracted from the article]

Published

2024

178. Study Findings on Autism Described by Researchers at University of Toronto (High-throughput sensitive screening of small molecule modulators of microexon alternative splicing using dual Nano and Firefly luciferase reporters).

Subjects

FLUORESCENT proteins, ALTERNATIVE RNA splicing, CHEMICAL libraries, SMALL molecules, DEVELOPMENTAL disabilities

Abstract

Researchers at the University of Toronto have conducted a study on autism, focusing on the disruption of alternative splicing and its contribution to the disorder. The researchers developed a screening workflow using dual Nano and Firefly luciferase alternative splicing reporters to detect small molecule responses. Through this system, they identified compounds that can stimulate or repress the splicing of neuronal microexons, which are often disrupted in autism. One of these compounds was able to rescue the splicing of microexons in an autism mouse model. This study provides a high-throughput screening system for identifying potential splicing therapeutics and offers a resource of small molecule modulators for further development in correcting aberrant splicing patterns associated with human disorders and diseases. [Extracted from the article]

Published

2024

179. Investigators from Federal University Zero in on Alphavirus (Development and Validation of Mayaro Virus With Luciferase Reporter Genes As a Tool for Antiviral Assays).

Published

2024

180. Researcher at Chinese University of Hong Kong Has Published New Data on Gram-Positive Bacteria (Development of a luciferase-based Gram-positive bacterial reporter system for the characterization of antimicrobial agents).

Published

2024

181. Patent Application Titled "Highly Sensitive And Specific Luciferase Based Reporter Assay For Antigen Detection" Published Online (USPTO 20240230646).

Abstract

The patent application titled "Highly Sensitive And Specific Luciferase Based Reporter Assay For Antigen Detection" discusses the need for improved methods of detecting antigens, particularly those expressed at low levels, in order to select patients for targeted therapies and predict toxicity to normal tissues. It also addresses the lack of a fast, economical, sensitive, and robust assay for detecting chimeric antigen receptors on the surface of T cells, which is important in CAR-T cell therapy. The invention described in the application provides a method for detecting expression of a chimeric antigen receptor using a fusion protein and a non-secretory form of luciferase as a reporter. The composition and method described in the application are highly sensitive and specific for detecting CAR expression. [Extracted from the article]

Published

2024

182. "Methods And Systems For The Rapid Detection Of Salmonella Using Infectious Agents" in Patent Application Approval Process (USPTO 20240229100).

Subjects

PATENT applications, SALMONELLA, SALMONELLA detection, HOMOLOGOUS recombination, BACTERIOPHAGE T4, GRAM-negative anaerobic bacteria

Abstract

A patent application has been filed for a method and system to rapidly detect Salmonella using infectious agents. Traditional methods for detecting bacteria can take several days, but this new method aims to reduce the time required for detection. The invention involves using a recombinant bacteriophage, a type of virus that infects bacteria, which contains an indicator gene that produces a soluble indicator protein when the bacteriophage infects Salmonella. This method has the potential to provide a more rapid, simple, and sensitive way to detect and identify bacteria in various samples, including food, water, and clinical samples. [Extracted from the article]

Published

2024

183. Research from University of Melbourne Yields New Findings on Breast Cancer (A Novel Method for the Early Detection of Single Circulating, Metastatic and Self-Seeding Cancer Cells in Orthotopic Breast Cancer Mouse Models).

Abstract

A recent report from the University of Melbourne discusses new research findings on breast cancer. The study focuses on the detection of metastasis, which is the main cause of cancer-related deaths. The researchers developed a novel method using luciferase-labeled breast cancer cells to detect disseminated tumor cells in various sites of the body. The results demonstrate the feasibility of this ultrasensitive method for understanding the mechanisms of early metastatic colonization and improving the development of antimetastatic therapies. [Extracted from the article]

Published

2024

184. New Data from Luohe Medical College Illuminate Research in Gallbladder Cancer (Grifola frondose Polysaccharide Regulates Proliferation, Migration and Invasion of Gallbladder Cancer Cells Through LncRNA HULC/miR-186-5p Axis).

Abstract

New research from Luohe Medical College in China has found that Grifola frondose polysaccharide (GFP) can inhibit the proliferation, migration, and invasion of gallbladder cancer cells. The study investigated the effects of GFP on gallbladder carcinoma cells and found that GFP had a definite inhibitory effect on these cells. The mechanism behind this inhibition was related to the regulation of LncRNA HULC/miR-186-5p. This research provides valuable insights into potential treatments for gallbladder cancer. [Extracted from the article]

Published

2024

185. New Research on Adenovirus from Shanghai Jiao Tong University School of Medicine Summarized (Generation and validation of the conditional osteoblast-specific retinoic acid signaling inhibition mouse model).

Abstract

Researchers from Shanghai Jiao Tong University School of Medicine have developed a mouse model that mimics vitamin A deficiency (VAD)-like craniofacial skeletal deformities. The model was created using the Cre-LoxP system and expresses a dominant-negative retinoid acid receptor a (dnRARa) mutation in osteoblasts. The researchers verified the model by assessing the expression of retinoid acid receptor a (RARa) protein and the inhibition of retinoic acid signaling in the osteoblasts. Micro-CT scanning and 3D reconstruction confirmed the craniofacial skeletal deformities in the mouse model. This model provides a new tool for studying the pathogenesis and potential therapies for VAD-like craniofacial skeletal deformities. [Extracted from the article]

Published

2024

186. Patent Issued for Method of detecting Polycomb Repressive Complex activity (USPTO 12018253).

Subjects

DNA-binding proteins, DIAMINO amino acids, BIOCHEMISTRY, FLUORESCENT proteins, GENETIC vectors, LUCIFERASES

Abstract

A patent has been issued for a method of detecting Polycomb Repressive Complex (PRC) activity in cells. The method involves expressing a recombinant gene of a binding protein fused to a member of the PRC, allowing the fused binding protein to bind to a protein binding site on the DNA, and detecting reporter gene expression. This method can provide insight into complex interactions and facilitate the development of cancer medications by manipulating PRC function. Kits containing the necessary components for the method are also provided. The patent describes a method for detecting Polycomb Repressive Complex (PRC) activity in vertebrate cells. The method involves providing the cells with a DNA containing a protein binding site and a reporter gene expression site that is connected to the protein binding site. The cells also contain a recombinant gene of a binding protein fused to a member of the PRC. The method allows for the detection of reporter gene expression, which indicates PRC activity. The patent also includes various embodiments and variations of the method. [Extracted from the article]

Published

2024

187. Researchers Submit Patent Application, "Rotavirus Vectors For Heterologous Gene Delivery", for Approval (USPTO 20240200099).

Abstract

Researchers from Merck Sharp & Dohme LLC have submitted a patent application for the use of rotavirus as a vector to express heterologous antigenic proteins. The application includes information on the use of isolated nucleic acid molecules containing rotavirus non-structural proteins, a 2A peptide, and a heterologous protein. The patent application also discusses the use of recombinant rotavirus and immunogenic compositions for preventing or treating infections. The invention includes methods for inducing a protective immune response in a subject by administering an immunogenic composition orally or to a mucous membrane. The patent application also provides methods for rescuing recombinant rotavirus and producing it in cell culture. [Extracted from the article]

Published

2024

188. Patent Issued for Methods and systems for rapid detection of microorganisms using infectious agents (USPTO 12006531).

Abstract

Laboratory Corporation of America Holdings has been issued a patent for methods and systems for rapid detection of microorganisms. The patent describes a recombinant bacteriophage that contains an indicator gene, which, when expressed during bacteriophage replication, produces a soluble indicator protein. This protein can be detected to indicate the presence of a specific microorganism in a sample. The invention aims to improve the speed and sensitivity of detecting bacteria, viruses, and other microorganisms in various samples, such as biological, food, water, and clinical samples. This technology could have significant implications for public health and food safety. [Extracted from the article]

Published

2024

189. Patent Issued for Cell-based assay for detecting anti-CD3 homodimers (USPTO 12007398).

Subjects

INVENTORS, HOMODIMERS, CHO cell, FLUORESCENT proteins

Abstract

Genentech Inc. has been issued a patent for a cell-based assay that detects anti-CD3 homodimers, which are impurities that can impact the efficacy and safety of T cell dependent bispecific antibodies (TDB). Traditional methods for detecting impurities in TDBs are not effective for anti-CD3 homodimers, so this assay provides a specialized approach using highly specialized antibodies. The assay involves contacting T cells with the TDB composition and measuring the expression of a reporter gene linked to T cell activation, which indicates the presence of anti-CD3 homodimers. This assay can help ensure the development of safe and effective clinical drug candidates. [Extracted from the article]

Published

2024

190. Shedding Light on H. pylori Detection: A Fusion Protein Approach Unveiled through LIPS Method.

Subjects

CHIMERIC proteins, HELICOBACTER pylori, FLUORESCENT proteins, RECOMBINANT proteins, LIPS

Abstract

A recent study published in Gastroenterology Week discusses a new method called Luciferase Immunoprecipitation Systems (LIPS) for detecting antibodies to antigens. The study focuses on the production of a fusion protein that combines antigenic epitopes from the Helicobacter pylori urease protein and luciferase, aiming to reduce the size of the fusion protein and improve its expression. The researchers successfully produced the fusion protein and confirmed its proper folding and functionality through various assays. This study highlights the potential of the fusion protein as a candidate for detecting H. pylori and streamlining the production of LIPS fusion proteins. However, it is important to note that this research has not yet undergone peer review. [Extracted from the article]

Published

2024

191. Researcher at University of Kentucky Publishes New Study Findings on Glioblastomas (Optimization, Characterization, and Comparison of Two Luciferase-Expressing Mouse Glioblastoma Models).

Abstract

A recent study conducted at the University of Kentucky has focused on glioblastomas, which are highly aggressive brain cancers. The researchers aimed to optimize and characterize two luciferase-expressing mouse glioblastoma models, GL261 Red-FLuc and TRP-mCherry-FLuc, and compare their tumor characteristics. The study found that GL261 Red-FLuc tumors were well-demarcated with densely packed cells, high mitotic activity, and vascularization, while TRP-mCherry-FLuc tumors were large, invasive, and necrotic with perivascular invasion. The researchers also highlighted the importance of considering tumor engraftment when using luciferase-expressing glioblastoma models in preclinical research design. [Extracted from the article]

Published

2024

192. New Findings from University of Pennsylvania Update Understanding of Gene Therapy (High-dose Systemic Adeno-associated Virus Vector Administration Causes Liver and Sinusoidal Endothelial Cell Injury).

Abstract

A recent report from the University of Pennsylvania provides new insights into the potential risks of high-dose systemic adeno-associated virus (AAV) vector administration in gene therapy. The study analyzed data from toxicology studies involving macaques and found that high doses of AAV caused liver and sinusoidal endothelial cell injury. The toxicity was characterized by transaminitis, thrombocytopenia, and alternative complement pathway activation. While most animals recovered, some developed severe symptoms that led to euthanasia. These findings highlight the need for further research to better understand the potential toxic effects of high-dose AAV administration in nonhuman primates. [Extracted from the article]

Published

2024

193. Determining Protein Complex Structures Based on a Bayesian Model of in Vivo Förster Resonance Energy Transfer (FRET) Data*

Author

Bonomi, Massimiliano, Pellarin, Riccardo, Kim, Seung Joong, Russel, Daniel, Sundin, Bryan A, Riffle, Michael, Jaschob, Daniel, Ramsden, Richard, Davis, Trisha N, Muller, Eric GD, and Sali, Andrej

Subjects

Biochemistry and Cell Biology, Biological Sciences, Underpinning research, 1.4 Methodologies and measurements, Generic health relevance, Algorithms, Bacterial Proteins, Bayes Theorem, Computer Simulation, Fluorescence Resonance Energy Transfer, Luminescent Proteins, Molecular Structure, Monte Carlo Method, Protein Interaction Mapping, Protein Structure, Quaternary, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Biochemistry & Molecular Biology

Abstract

The use of in vivo Förster resonance energy transfer (FRET) data to determine the molecular architecture of a protein complex in living cells is challenging due to data sparseness, sample heterogeneity, signal contributions from multiple donors and acceptors, unequal fluorophore brightness, photobleaching, flexibility of the linker connecting the fluorophore to the tagged protein, and spectral cross-talk. We addressed these challenges by using a Bayesian approach that produces the posterior probability of a model, given the input data. The posterior probability is defined as a function of the dependence of our FRET metric FRETR on a structure (forward model), a model of noise in the data, as well as prior information about the structure, relative populations of distinct states in the sample, forward model parameters, and data noise. The forward model was validated against kinetic Monte Carlo simulations and in vivo experimental data collected on nine systems of known structure. In addition, our Bayesian approach was validated by a benchmark of 16 protein complexes of known structure. Given the structures of each subunit of the complexes, models were computed from synthetic FRETR data with a distance root-mean-squared deviation error of 14 to 17 Å. The approach is implemented in the open-source Integrative Modeling Platform, allowing us to determine macromolecular structures through a combination of in vivo FRETR data and data from other sources, such as electron microscopy and chemical cross-linking.

Published

2014

194. Regulation of gene expression in diverse cyanobacterial species by using theophylline-responsive riboswitches.

Author

Ma, Amy T, Schmidt, Calvin M, and Golden, James W

Subjects

Cyanobacteria, Theophylline, Bacterial Proteins, Luminescent Proteins, Genetics, Microbial, Molecular Biology, Gene Expression Regulation, Bacterial, Genes, Reporter, Riboswitch, Genetics, Microbial, Gene Expression Regulation, Bacterial, Genes, Reporter, Microbiology

Abstract

Cyanobacteria are photosynthetic bacteria that are currently being developed as biological production platforms. They derive energy from light and carbon from atmospheric carbon dioxide, and some species can fix atmospheric nitrogen. One advantage of developing cyanobacteria for renewable production of biofuels and other biological products is that they are amenable to genetic manipulation, facilitating bioengineering and synthetic biology. To expand the currently available genetic toolkit, we have demonstrated the utility of synthetic theophylline-responsive riboswitches for effective regulation of gene expression in four diverse species of cyanobacteria, including two recent isolates. We evaluated a set of six riboswitches driving the expression of a yellow fluorescent protein reporter in Synechococcus elongatus PCC 7942, Leptolyngbya sp. strain BL0902, Anabaena sp. strain PCC 7120, and Synechocystis sp. strain WHSyn. We demonstrated that riboswitches can offer regulation of gene expression superior to that of the commonly used isopropyl-β-d-thiogalactopyranoside induction of a lacI(q)-Ptrc promoter system. We also showed that expression of the toxic protein SacB can be effectively regulated, demonstrating utility for riboswitch regulation of proteins that are detrimental to biomass accumulation. Taken together, the results of this work demonstrate the utility and ease of use of riboswitches in the context of genetic engineering and synthetic biology in diverse cyanobacteria, which will facilitate the development of algal biotechnology.

Published

2014

195. Regulation of Gene Expression in Diverse Cyanobacterial Species by Using Theophylline-Responsive Riboswitches

Author

T., Amy, Schmidt, Calvin M, and Golden, James W

Subjects

Genetics, Biotechnology, Affordable and Clean Energy, Bacterial Proteins, Cyanobacteria, Gene Expression Regulation, Bacterial, Genes, Reporter, Genetics, Microbial, Luminescent Proteins, Molecular Biology, Riboswitch, Theophylline, Microbiology

Abstract

Cyanobacteria are photosynthetic bacteria that are currently being developed as biological production platforms. They derive energy from light and carbon from atmospheric carbon dioxide, and some species can fix atmospheric nitrogen. One advantage of developing cyanobacteria for renewable production of biofuels and other biological products is that they are amenable to genetic manipulation, facilitating bioengineering and synthetic biology. To expand the currently available genetic toolkit, we have demonstrated the utility of synthetic theophylline-responsive riboswitches for effective regulation of gene expression in four diverse species of cyanobacteria, including two recent isolates. We evaluated a set of six riboswitches driving the expression of a yellow fluorescent protein reporter in Synechococcus elongatus PCC 7942, Leptolyngbya sp. strain BL0902, Anabaena sp. strain PCC 7120, and Synechocystis sp. strain WHSyn. We demonstrated that riboswitches can offer regulation of gene expression superior to that of the commonly used isopropyl-β-d-thiogalactopyranoside induction of a lacI(q)-Ptrc promoter system. We also showed that expression of the toxic protein SacB can be effectively regulated, demonstrating utility for riboswitch regulation of proteins that are detrimental to biomass accumulation. Taken together, the results of this work demonstrate the utility and ease of use of riboswitches in the context of genetic engineering and synthetic biology in diverse cyanobacteria, which will facilitate the development of algal biotechnology.

Published

2014

196. Combined in vivo optical and µCT imaging to monitor infection, inflammation, and bone anatomy in an orthopaedic implant infection in mice.

Author

Taylor, Brad, Meganck, Jeffrey, Wang, Yu, Shahbazian, Jonathan, Niska, Jared, Francis, Kevin, Miller, Lloyd, and Bernthal, Nicholas

Subjects

Animals, Bone Wires, Bone and Bones, Disease Models, Animal, Green Fluorescent Proteins, Inflammation, Luminescent Measurements, Luminescent Proteins, Male, Mice, Multimodal Imaging, Optical Imaging, Prosthesis-Related Infections, Staphylococcal Infections, Staphylococcus aureus, X-Ray Microtomography

Abstract

Multimodality imaging has emerged as a common technological approach used in both preclinical and clinical research. Advanced techniques that combine in vivo optical and μCT imaging allow the visualization of biological phenomena in an anatomical context. These imaging modalities may be especially useful to study conditions that impact bone. In particular, orthopaedic implant infections are an important problem in clinical orthopaedic surgery. These infections are difficult to treat because bacterial biofilms form on the foreign surgically implanted materials, leading to persistent inflammation, osteomyelitis and eventual osteolysis of the bone surrounding the implant, which ultimately results in implant loosening and failure. Here, a mouse model of an infected orthopaedic prosthetic implant was used that involved the surgical placement of a Kirschner-wire implant into an intramedullary canal in the femur in such a way that the end of the implant extended into the knee joint. In this model, LysEGFP mice, a mouse strain that has EGFP-fluorescent neutrophils, were employed in conjunction with a bioluminescent Staphylococcus aureus strain, which naturally emits light. The bacteria were inoculated into the knee joints of the mice prior to closing the surgical site. In vivo bioluminescent and fluorescent imaging was used to quantify the bacterial burden and neutrophil inflammatory response, respectively. In addition, μCT imaging was performed on the same mice so that the 3D location of the bioluminescent and fluorescent optical signals could be co-registered with the anatomical μCT images. To quantify the changes in the bone over time, the outer bone volume of the distal femurs were measured at specific time points using a semi-automated contour based segmentation process. Taken together, the combination of in vivo bioluminescent/fluorescent imaging with μCT imaging may be especially useful for the noninvasive monitoring of the infection, inflammatory response and anatomical changes in bone over time.

Published

2014

197. Combined in vivo optical and µCT imaging to monitor infection, inflammation, and bone anatomy in an orthopaedic implant infection in mice.

Author

Bernthal, Nicholas M, Taylor, Brad N, Meganck, Jeffrey A, Wang, Yu, Shahbazian, Jonathan H, Niska, Jared A, Francis, Kevin P, and Miller, Lloyd S

Subjects

Bone and Bones, Animals, Mice, Staphylococcus aureus, Staphylococcal Infections, Prosthesis-Related Infections, Disease Models, Animal, Inflammation, Luminescent Proteins, Green Fluorescent Proteins, Luminescent Measurements, Bone Wires, Male, X-Ray Microtomography, Optical Imaging, Multimodal Imaging, Infection, Issue 92, imaging, optical, CT, bioluminescence, fluorescence, staphylococcus, infection, inflammation, bone, orthopaedic, implant, biofilm, Disease Models, Animal, Biochemistry and Cell Biology, Psychology, Cognitive Sciences

Abstract

Multimodality imaging has emerged as a common technological approach used in both preclinical and clinical research. Advanced techniques that combine in vivo optical and μCT imaging allow the visualization of biological phenomena in an anatomical context. These imaging modalities may be especially useful to study conditions that impact bone. In particular, orthopaedic implant infections are an important problem in clinical orthopaedic surgery. These infections are difficult to treat because bacterial biofilms form on the foreign surgically implanted materials, leading to persistent inflammation, osteomyelitis and eventual osteolysis of the bone surrounding the implant, which ultimately results in implant loosening and failure. Here, a mouse model of an infected orthopaedic prosthetic implant was used that involved the surgical placement of a Kirschner-wire implant into an intramedullary canal in the femur in such a way that the end of the implant extended into the knee joint. In this model, LysEGFP mice, a mouse strain that has EGFP-fluorescent neutrophils, were employed in conjunction with a bioluminescent Staphylococcus aureus strain, which naturally emits light. The bacteria were inoculated into the knee joints of the mice prior to closing the surgical site. In vivo bioluminescent and fluorescent imaging was used to quantify the bacterial burden and neutrophil inflammatory response, respectively. In addition, μCT imaging was performed on the same mice so that the 3D location of the bioluminescent and fluorescent optical signals could be co-registered with the anatomical μCT images. To quantify the changes in the bone over time, the outer bone volume of the distal femurs were measured at specific time points using a semi-automated contour based segmentation process. Taken together, the combination of in vivo bioluminescent/fluorescent imaging with μCT imaging may be especially useful for the noninvasive monitoring of the infection, inflammatory response and anatomical changes in bone over time.

Published

2014

198. Chromatin reader L(3)mbt requires the Myb–MuvB/DREAM transcriptional regulatory complex for chromosomal recruitment

Author

Blanchard, Daniel P, Georlette, Daphne, Antoszewski, Lisa, and Botchan, Michael R

Subjects

Genetics, Cancer, Human Genome, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Animals, Genetically Modified, Carrier Proteins, Caspases, Cell Cycle Proteins, Cell Line, Chromatin, Chromosomes, Insect, Drosophila Proteins, Drosophila melanogaster, E2F2 Transcription Factor, Gene Expression Regulation, Histones, Immunohistochemistry, In Situ Hybridization, Fluorescence, Luminescent Proteins, Microscopy, Confocal, Microscopy, Fluorescence, Multiprotein Complexes, Proto-Oncogene Proteins c-myb, Reverse Transcriptase Polymerase Chain Reaction, Salivary Glands, Transcription Factors, epigenetics, bar coding, tumorigenesis

Abstract

Lethal malignant brain tumors (lmbt) result from the loss of the conserved transcriptional repressor l(3)mbt, in Drosophila melanogaster. Similar mutations in the human homolog L3MBTL1 correlate with some cancers. The protein's C-terminal MBT repeats bind mono and dimethylated histones in vitro, which could influence recruitment of L3MBTL1 to its target sites. The L(3)mbt chromatin targeting mechanism, however, is controversial and several studies suggest insufficiency or a minor role for histone methylation in determining the site specificity for recruitment. We report that L(3)mbt colocalizes with core members of the Myb-MuvB/DREAM (MMB/DREAM) transcriptional regulatory complex genome-wide, and that L(3)mbt-mediated repression requires this complex in salivary glands and larval brains. Loss of l(3)mbt or of MMB components through mutation cause similar spurious expression of genes, including the transposon regulatory gene piwi, in terminally differentiated cells. The DNA-binding MMB core component Mip120 (Lin54) is required for L(3)mbt recruitment to chromosomes, whereas Mip130 (Lin9) (an MMB core protein) and E2f2 (an MMB transcriptional repressor) are not, but are essential for repression. Cytolocalization experiments suggest the presence of site-specific differential composition of MMB in polytene chromosomes where some loci were bound by a Myb-containing or alternatively, an E2f2 and L(3)mbt form of the complex.

Published

2014

199. Osteosarcoma Cells Enhance Angiogenesis Visualized by Color‐Coded Imaging in the In Vivo Gelfoam® Assay

Author

Uehara, Fuminari, Tome, Yasunori, Miwa, Shinji, Hiroshima, Yukihiko, Yano, Shuya, Yamamoto, Mako, Mii, Sumiyuki, Maehara, Hiroki, Bouvet, Michael, Kanaya, Fuminori, and Hoffman, Robert M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Transplantation, Animals, Cell Line, Tumor, Female, Gelatin Sponge, Absorbable, Green Fluorescent Proteins, Humans, Implants, Experimental, Luminescent Proteins, Mice, Mice, Nude, Mice, Transgenic, Microscopy, Confocal, Neoplasm Transplantation, Neovascularization, Pathologic, Osteosarcoma, GREEN FLUORESCENT PROTEIN, RED FLUORESCENT PROTEIN, OSTEOSARCOMA, ANGIOGENESIS, GELFOAM, NESTIN, TRANSGENIC NUDE MOUSE, CONFOCAL MICROSCOPY, GELFOAM®, Medical Physiology, Biochemistry & Molecular Biology, Biochemistry and cell biology

Abstract

We previously described a color-coded imaging model that can quantify the length of nascent blood vessels using Gelfoam® implanted in nestin-driven green fluorescent protein (ND-GFP) nude mice. In ND-GFP mice, nascent blood vessels are labeled with GFP. We report here that osteosarcoma cells promote angiogenesis in the Gelfoam® angiogenesis assay in ND-GFP mice. Gelfoam® was initially transplanted subcutaneously in the flank of transgenic ND-GFP nude mice. Seven days after transplantation of Gelfoam®, skin flaps were made and human 143B osteosarcoma cells expressing green fluorescent protein (GFP) in the nucleus and red fluorescent protein (RFP) in cytoplasm were injected into the transplanted Gelfoam®. The control-group mice had only implanted Gelfoam®. Skin flaps were made at days 14, 21, and 28 after transplantation of the Gelfoam® to allow imaging of vascularization in the Gelfoam® using a variable-magnification small animal imaging system and confocal fluorescence microscopy. ND-GFP expressing nascent blood vessels penetrated and spread into the Gelfoam® in a time-dependent manner in both control and osteosarcoma-implanted mice. ND-GFP expressing blood vessels in the Gelfoam® of the osteosarcoma-implanted mice were associated with the cancer cells and larger and longer than in the Gelfoam®-only implanted mice (P

Published

2014

200. Efficient, Complete Deletion of Synaptic Proteins using CRISPR

Author

Incontro, Salvatore, Asensio, Cedric S, Edwards, Robert H, and Nicoll, Roger A

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Neurosciences, Psychology, Biotechnology, Genetics, Neurological, Animals, Animals, Newborn, Cells, Cultured, Clustered Regularly Interspaced Short Palindromic Repeats, Excitatory Amino Acid Agents, Excitatory Postsynaptic Potentials, Green Fluorescent Proteins, Hippocampus, Humans, In Vitro Techniques, Luminescent Proteins, N-Methylaspartate, Nerve Tissue Proteins, Neurons, Quinoxalines, RNA, Rats, Receptors, AMPA, Receptors, N-Methyl-D-Aspartate, Synapses, Synaptophysin, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology

Abstract

One of the most powerful ways to test the function of a protein is to characterize the consequences of its deletion. In the past, this has involved inactivation of the gene by homologous recombination either in the germline or later through conditional deletion. RNA interference (RNAi) provides an alternative way to knock down proteins, but both of these approaches have their limitations. Recently, the CRISPR/Cas9 system has suggested another way to selectively inactivate genes. We have now tested this system in postmitotic neurons by targeting two well-characterized synaptic proteins, the obligatory GluN1 subunit of the NMDA receptor and the GluA2 subunit of the AMPA receptor. Expression of CRISPR/Cas9 in hippocampal slice cultures completely eliminated NMDA receptor and GluA2 function. CRISPR/Cas9 thus provides a powerful tool to study the function of synaptic proteins.

Published

2014