Searched for: Department/Unit:Neuroscience Institute
RSK1 activation promotes invasion in nodular melanoma [Meeting Abstract]
Salhi, A; Farhadian, J A; Giles, K M; De, Miera E V -S; Silva, I P; Bourque, C; Yeh, K; Chhangawala, S; Wang, J; Ye, F; Zhang, D Y; Hernando, E; Houvras, Y; Osman, I
Background: The two major melanoma histologic subtypes, superficial spreading and nodular melanomas, are believed to differ in their speed of dermal invasion but to converge biologically once they invade and metastasize. Here, we tested the hypothesis that distinct molecular alterations arising in primary melanoma cells might persist as these tumors progress to invasion and metastasis. Materials and methods: Expression of 141 signaling proteins was evaluated by protein pathway array in 3 Radial Growth Phase (RGP)/SSM and 3 Vertical Growth Phase (VGP)/NM cell lines. The impact of p90- ribosomal-S6-kinase (RSK1) and its inhibition on proliferation, migration and invasion was assessed in SSM and NM cell lines, and confirmed using NM cells treated with a RSK inhibitor (BI-D1870) in microarray profiling studies. The effect of constitutive RSK1 activation in vivo was further studied using a zebrafish model. Results: We show that p90-ribosomal-S6-kinase (RSK1) was significantly hyper-activated in human melanoma lines and metastatic tissues derived from nodular compared with superficial spreading melanoma. RSK1 was constitutively phosphorylated at Ser-380 in nodular but not superficial spreading melanoma and was not directly correlated with BRAF or MEK activation. Nodular melanoma cells were more sensitive to RSK1 inhibition using both siRNA and pharmacological inhibitor BI-D1870 compared with superficial spreading cells. In addition, gene expression microarray analyses revealed that RSK1 orchestrates a program of gene expression that promotes cell motility and invasion. Our data also demonstrate a differential over expression of the pro- metastatic MMP-8 and TIMP-1 in metastatic nodular compared to metastatic superficial spreading melanoma. Finally, using an in vivo zebrafish model, constitutive RSK1 activation increased melanoma invasion. Conclusions: Together, our data reveal a novel role for activated RSK1 in the progression of nodular melanoma, and suggest that melanoma originating from different histological subtypes may be biologically distinct and that these differences are maintained as the tumors invade and metastasize
EMBASE:72289925
ISSN: 1479-5876
CID: 2150442
High-throughput functional genomics using CRISPR-Cas9
Shalem, Ophir; Sanjana, Neville E; Zhang, Feng
Forward genetic screens are powerful tools for the discovery and functional annotation of genetic elements. Recently, the RNA-guided CRISPR (clustered regularly interspaced short palindromic repeat)-associated Cas9 nuclease has been combined with genome-scale guide RNA libraries for unbiased, phenotypic screening. In this Review, we describe recent advances using Cas9 for genome-scale screens, including knockout approaches that inactivate genomic loci and strategies that modulate transcriptional activity. We discuss practical aspects of screen design, provide comparisons with RNA interference (RNAi) screening, and outline future applications and challenges.
PMCID:4503232
PMID: 25854182
ISSN: 1471-0064
CID: 2131202
BCL11A enhancer dissection by Cas9-mediated in situ saturating mutagenesis
Canver, Matthew C; Smith, Elenoe C; Sher, Falak; Pinello, Luca; Sanjana, Neville E; Shalem, Ophir; Chen, Diane D; Schupp, Patrick G; Vinjamur, Divya S; Garcia, Sara P; Luc, Sidinh; Kurita, Ryo; Nakamura, Yukio; Fujiwara, Yuko; Maeda, Takahiro; Yuan, Guo-Cheng; Zhang, Feng; Orkin, Stuart H; Bauer, Daniel E
Enhancers, critical determinants of cellular identity, are commonly recognized by correlative chromatin marks and gain-of-function potential, although only loss-of-function studies can demonstrate their requirement in the native genomic context. Previously, we identified an erythroid enhancer of human BCL11A, subject to common genetic variation associated with the fetal haemoglobin level, the mouse orthologue of which is necessary for erythroid BCL11A expression. Here we develop pooled clustered regularly interspaced palindromic repeat (CRISPR)-Cas9 guide RNA libraries to perform in situ saturating mutagenesis of the human and mouse enhancers. This approach reveals critical minimal features and discrete vulnerabilities of these enhancers. Despite conserved function of the composite enhancers, their architecture diverges. The crucial human sequences appear to be primate-specific. Through editing of primary human progenitors and mouse transgenesis, we validate the BCL11A erythroid enhancer as a target for fetal haemoglobin reinduction. The detailed enhancer map will inform therapeutic genome editing, and the screening approach described here is generally applicable to functional interrogation of non-coding genomic elements.
PMCID:4644101
PMID: 26375006
ISSN: 1476-4687
CID: 2131192
Genome-wide CRISPR screen in a mouse model of tumor growth and metastasis
Chen, Sidi; Sanjana, Neville E; Zheng, Kaijie; Shalem, Ophir; Lee, Kyungheon; Shi, Xi; Scott, David A; Song, Jun; Pan, Jen Q; Weissleder, Ralph; Lee, Hakho; Zhang, Feng; Sharp, Phillip A
Genetic screens are powerful tools for identifying genes responsible for diverse phenotypes. Here we describe a genome-wide CRISPR/Cas9-mediated loss-of-function screen in tumor growth and metastasis. We mutagenized a non-metastatic mouse cancer cell line using a genome-scale library with 67,405 single-guide RNAs (sgRNAs). The mutant cell pool rapidly generates metastases when transplanted into immunocompromised mice. Enriched sgRNAs in lung metastases and late-stage primary tumors were found to target a small set of genes, suggesting that specific loss-of-function mutations drive tumor growth and metastasis. Individual sgRNAs and a small pool of 624 sgRNAs targeting the top-scoring genes from the primary screen dramatically accelerate metastasis. In all of these experiments, the effect of mutations on primary tumor growth positively correlates with the development of metastases. Our study demonstrates Cas9-based screening as a robust method to systematically assay gene phenotypes in cancer evolution in vivo.
PMCID:4380877
PMID: 25748654
ISSN: 1097-4172
CID: 2131212
Efficient Generation of Cardiac Purkinje Fiber-like Cells From ESCs by Activating cAMP Signaling [Meeting Abstract]
Tsai, Su-Yi; Maass, Karen; Lu, Jia; Fishman, Glenn I; Chen, Shuibing; Evans, Todd
ISI:000374552800257
ISSN: 1524-4571
CID: 2118992
The rapid imaging renaissance: sparser samples, denser dimensions, and glimmerings of a grand unified tomography [Meeting Abstract]
Sodickson, Daniel K; Feng, Li; Knoll, Florian; Cloos, Martijn; Ben-Eliezer, Noam; Axel, Leon; Chandarana, Hersh; Block, Tobias; Otazo, Ricardo
The task of imaging is to gather spatiotemporal information which can be organized into a coherent map. Tomographic imaging in particular involves the use of multiple projections, or other interactions of a probe (light, sound, etc.) with a body, in order to determine cross-sectional information. Though the probes and the corresponding imaging modalities may vary, and though the methodology of particular imaging approaches is in constant ferment, the conceptual underpinnings of tomographic imaging have in many ways remained fixed for many decades. Recent advances in applied mathematics, however, have begun to roil this intellectual landscape. The advent of compressed sensing, anticipated in various algorithms dating back many years but unleashed in full theoretical force in the last decade, has changed the way imagers have begun to think about data acquisition and image reconstruction. The power of incoherent sampling and sparsity-enforcing reconstruction has been demonstrated in various contexts and, when combined with other modern fast imaging techniques, has enabled unprecedented increases in imaging efficiency. Perhaps more importantly, however, such approaches have spurred a shift in perspective, prompting us to focus less on nominal data sufficiency than on information content. Beginning with examples from MRI, then proceeding through selected other modalities such as CT and PET, as well as multimodality combinations, this paper explores the potential of newly evolving acquisition and reconstruction paradigms to change the way we do imaging in the lab and in the clinic.
ISI:000355665600014
ISSN: 0277-786x
CID: 2061802
The continuous performance test (rCPT) for mice: a novel operant touchscreen test of attentional function
Kim, Chi Hun; Hvoslef-Eide, Martha; Nilsson, Simon R O; Johnson, Mark R; Herbert, Bronwen R; Robbins, Trevor W; Saksida, Lisa M; Bussey, Timothy J; Mar, Adam C
RATIONALE: Continuous performance tests (CPTs) are widely used to assess attentional processes in a variety of disorders including Alzheimer's disease and schizophrenia. Common human CPTs require discrimination of sequentially presented, visually patterned 'target' and 'non-target' stimuli at a single location. OBJECTIVES: The aims of this study were to evaluate the performance of three popular mouse strains on a novel rodent touchscreen test (rCPT) designed to be analogous to common human CPT variants and to investigate the effects of donepezil, a cholinesterase inhibitor and putative cognitive enhancer. METHODS: C57BL/6J, DBA/2J and CD1 mice (n = 15-16/strain) were trained to baseline performance using four rCPT training stages. Then, probe tests assessed the effects of parameter changes on task performance: stimulus size, duration, contrast, probability, inter-trial interval or inclusion of flanker distractors. rCPT performance was also evaluated following acute administration of donepezil (0-3 mg/kg, i.p.). RESULTS: C57BL/6J and DBA/2J mice showed similar acquisition rates and final baseline performance following rCPT training. On probe tests, rCPT performance of both strains was sensitive to alteration of visual and/or attentional demands (stimulus size, duration, contrast, rate, flanker distraction). Relative to C57BL/6J, DBA/2J mice exhibited (1) decreasing sensitivity (d') across the 45-min session, (2) reduced performance on probes where the appearance of stimuli or adjacent areas were changed (size, contrast, flanking distractors) and (3) larger dose- and stimulus duration-dependent changes in performance following donepezil administration. In contrast, CD1 mice failed to acquire rCPT (stage 3) and pairwise visual discrimination tasks. CONCLUSIONS: rCPT is a potentially useful translational tool for assessing attention in mice and for detecting the effects of nootropic drugs.
PMCID:4600477
PMID: 26415954
ISSN: 1432-2072
CID: 2037782
The Special Topics Section of Alzheimer's & Dementia [Editorial]
Khachaturian, Zaven S; Mesulam, M Marsel; Khachaturian, Ara S; Mohs, Richard C
PMID: 26589667
ISSN: 1552-5279
CID: 2040532
Re-engineering a neuroprotective, clinical drug as a procognitive agent with high in vivo potency and with GABAA potentiating activity for use in dementia
Luo, Jia; Lee, Sue H; VandeVrede, Lawren; Qin, Zhihui; Piyankarage, Sujeewa; Tavassoli, Ehsan; Asghodom, Rezene T; Ben Aissa, Manel; Fa, Mauro; Arancio, Ottavio; Yue, Lan; Pepperberg, David R; Thatcher, Gregory R J
BACKGROUND: Synaptic dysfunction is a key event in pathogenesis of neurodegenerative diseases such as Alzheimer's disease (AD) where synapse loss pathologically correlates with cognitive decline and dementia. Although evidence suggests that aberrant protein production and aggregation are the causative factors in familial subsets of such diseases, drugs singularly targeting these hallmark proteins, such as amyloid-beta, have failed in late stage clinical trials. Therefore, to provide a successful disease-modifying compound and address synaptic dysfunction and memory loss in AD and mixed pathology dementia, we repurposed a clinically proven drug, CMZ, with neuroprotective and anti-inflammatory properties via addition of nitric oxide (NO) and cGMP signaling property. RESULTS: The novel compound, NMZ, was shown to retain the GABAA potentiating actions of CMZ in vitro and sedative activity in vivo. Importantly, NMZ restored LTP in hippocampal slices from AD transgenic mice, whereas CMZ was without effect. NMZ reversed amnestic blockade of acetylcholine receptors by scopolamine as well as NMDA receptor blockade by a benzodiazepine and a NO synthase inhibitor in the step-through passive avoidance (STPA) test of learning and working memory. A PK/PD relationship was developed based on STPA analysis coupled with pharmacokinetic measures of drug levels in the brain: at 1 nM concentration in brain and plasma, NMZ was able to restore memory consolidation in mice. CONCLUSION: Our findings show that NMZ embodies a promising pharmacological approach targeting synaptic dysfunction and opens new avenues for neuroprotective intervention strategies in mixed pathology AD, neurodegeneration, and dementia.
PMCID:4612403
PMID: 26480871
ISSN: 1471-2202
CID: 2038902
Protein mutated in paroxysmal dyskinesia interacts with the active zone protein RIM and suppresses synaptic vesicle exocytosis
Shen, Yiguo; Ge, Woo-Ping; Li, Yulong; Hirano, Arisa; Lee, Hsien-Yang; Rohlmann, Astrid; Missler, Markus; Tsien, Richard W; Jan, Lily Yeh; Fu, Ying-Hui; Ptacek, Louis J
Paroxysmal nonkinesigenic dyskinesia (PNKD) is an autosomal dominant episodic movement disorder precipitated by coffee, alcohol, and stress. We previously identified the causative gene but the function of the encoded protein remains unknown. We also generated a PNKD mouse model that revealed dysregulated dopamine signaling in vivo. Here, we show that PNKD interacts with synaptic active zone proteins Rab3-interacting molecule (RIM)1 and RIM2, localizes to synapses, and modulates neurotransmitter release. Overexpressed PNKD protein suppresses release, and mutant PNKD protein is less effective than wild-type at inhibiting exocytosis. In PNKD KO mice, RIM1/2 protein levels are reduced and synaptic strength is impaired. Thus, PNKD is a novel synaptic protein with a regulatory role in neurotransmitter release.
PMCID:4364199
PMID: 25730884
ISSN: 1091-6490
CID: 2035942