Your search keyword '"Luria V"' showing total 28 results

1. Phylogenomic analyses of the genus Drosophila reveals genomic signals of climate adaptation

Author

Li, F, Rane, R, Luria, V, Xiong, Z, Chen, J, Li, Z, Catullo, RA, Griffin, PC, Schiffer, M, Pearce, S, Lee, SF, McElroy, K, Stocker, A, Shirriffs, J, Cockerell, F, Coppin, C, Sgro, CM, Karger, A, Cain, JW, Weber, JA, Santpere, G, Kirschner, MW, Hoffmann, AA, Oakeshott, JG, Zhang, G, Li, F, Rane, R, Luria, V, Xiong, Z, Chen, J, Li, Z, Catullo, RA, Griffin, PC, Schiffer, M, Pearce, S, Lee, SF, McElroy, K, Stocker, A, Shirriffs, J, Cockerell, F, Coppin, C, Sgro, CM, Karger, A, Cain, JW, Weber, JA, Santpere, G, Kirschner, MW, Hoffmann, AA, Oakeshott, JG, and Zhang, G

Abstract

Many Drosophila species differ widely in their distributions and climate niches, making them excellent subjects for evolutionary genomic studies. Here, we have developed a database of high-quality assemblies for 46 Drosophila species and one closely related Zaprionus. Fifteen of the genomes were newly sequenced, and 20 were improved with additional sequencing. New or improved annotations were generated for all 47 species, assisted by new transcriptomes for 19. Phylogenomic analyses of these data resolved several previously ambiguous relationships, especially in the melanogaster species group. However, it also revealed significant phylogenetic incongruence among genes, mainly in the form of incomplete lineage sorting in the subgenus Sophophora but also including asymmetric introgression in the subgenus Drosophila. Using the phylogeny as a framework and taking into account these incongruences, we then screened the data for genome-wide signals of adaptation to different climatic niches. First, phylostratigraphy revealed relatively high rates of recent novel gene gain in three temperate pseudoobscura and five desert-adapted cactophilic mulleri subgroup species. Second, we found differing ratios of nonsynonymous to synonymous substitutions in several hundred orthologues between climate generalists and specialists, with trends for significantly higher ratios for those in tropical and lower ratios for those in temperate-continental specialists respectively than those in the climate generalists. Finally, resequencing natural populations of 13 species revealed tropics-restricted species generally had smaller population sizes, lower genome diversity and more deleterious mutations than the more widespread species. We conclude that adaptation to different climates in the genus Drosophila has been associated with large-scale and multifaceted genomic changes.

Published

2022

2. Heterozygous Variants in KMT2E Cause a Spectrum of Neurodevelopmental Disorders and Epilepsy

Author

O'Donnell-Luria, A.H., Pais, L.S., Faundes, V., Wood, J.C., Sveden, A., Luria, V., Jamra, R. Abou, Accogli, A., Amburgey, K., Anderlid, B.M., Azzarello-Burri, S., Basinger, A.A., Bianchini, C., Bird, L.M., Buchert, R., Carre, W., Ceulemans, S., Charles, P., Cox, H., Culliton, L., Curro, A., Demurger, F., Dowling, J.J., Duban-Bedu, B., Dubourg, C., Eiset, S.E., Escobar, L.F., Ferrarini, A., Haack, T.B., Hashim, M., Heide, S. van der, Helbig, K.L., Helbig, I., Heredia, R., Heron, D., Isidor, B., Jonasson, A.R., Joset, P., Keren, B., Kok, F., Kroes, H.Y., Lavillaureix, A., Lu, X., Maas, S.M., Maegawa, G.H., Marcelis, C.L.M., Mark, P.R., Masruha, M.R., McLaughlin, H.M., McWalter, K., Melchinger, E.U., Mercimek-Andrews, S., Nava, C., Pendziwiat, M., Person, R., Ramelli, G.P., Ramos, L.L.P., Rauch, A., Reavey, C., Renieri, A., Riess, A., Sanchez-Valle, A., Sattar, S., Saunders, C., Schwarz, N., Smol, T., Srour, M., Steindl, K., Syrbe, S., Taylor, J.C., Telegrafi, A., Thiffault, I., Trauner, D.A., Linden, H., Jr. van der, Koningsbruggen, S. van, Villard, L., Vogel, I., Vogt, J., Weber, Y.G., Wentzensen, I.M., Widjaja, E., Zak, J., Baxter, S., Banka, S., Rodan, L.H., O'Donnell-Luria, A.H., Pais, L.S., Faundes, V., Wood, J.C., Sveden, A., Luria, V., Jamra, R. Abou, Accogli, A., Amburgey, K., Anderlid, B.M., Azzarello-Burri, S., Basinger, A.A., Bianchini, C., Bird, L.M., Buchert, R., Carre, W., Ceulemans, S., Charles, P., Cox, H., Culliton, L., Curro, A., Demurger, F., Dowling, J.J., Duban-Bedu, B., Dubourg, C., Eiset, S.E., Escobar, L.F., Ferrarini, A., Haack, T.B., Hashim, M., Heide, S. van der, Helbig, K.L., Helbig, I., Heredia, R., Heron, D., Isidor, B., Jonasson, A.R., Joset, P., Keren, B., Kok, F., Kroes, H.Y., Lavillaureix, A., Lu, X., Maas, S.M., Maegawa, G.H., Marcelis, C.L.M., Mark, P.R., Masruha, M.R., McLaughlin, H.M., McWalter, K., Melchinger, E.U., Mercimek-Andrews, S., Nava, C., Pendziwiat, M., Person, R., Ramelli, G.P., Ramos, L.L.P., Rauch, A., Reavey, C., Renieri, A., Riess, A., Sanchez-Valle, A., Sattar, S., Saunders, C., Schwarz, N., Smol, T., Srour, M., Steindl, K., Syrbe, S., Taylor, J.C., Telegrafi, A., Thiffault, I., Trauner, D.A., Linden, H., Jr. van der, Koningsbruggen, S. van, Villard, L., Vogel, I., Vogt, J., Weber, Y.G., Wentzensen, I.M., Widjaja, E., Zak, J., Baxter, S., Banka, S., and Rodan, L.H.

Abstract

Contains fulltext : 206572.pdf (publisher's version ) (Open Access), We delineate a KMT2E-related neurodevelopmental disorder on the basis of 38 individuals in 36 families. This study includes 31 distinct heterozygous variants in KMT2E (28 ascertained from Matchmaker Exchange and three previously reported), and four individuals with chromosome 7q22.2-22.23 microdeletions encompassing KMT2E (one previously reported). Almost all variants occurred de novo, and most were truncating. Most affected individuals with protein-truncating variants presented with mild intellectual disability. One-quarter of individuals met criteria for autism. Additional common features include macrocephaly, hypotonia, functional gastrointestinal abnormalities, and a subtle facial gestalt. Epilepsy was present in about one-fifth of individuals with truncating variants and was responsive to treatment with anti-epileptic medications in almost all. More than 70% of the individuals were male, and expressivity was variable by sex; epilepsy was more common in females and autism more common in males. The four individuals with microdeletions encompassing KMT2E generally presented similarly to those with truncating variants, but the degree of developmental delay was greater. The group of four individuals with missense variants in KMT2E presented with the most severe developmental delays. Epilepsy was present in all individuals with missense variants, often manifesting as treatment-resistant infantile epileptic encephalopathy. Microcephaly was also common in this group. Haploinsufficiency versus gain-of-function or dominant-negative effects specific to these missense variants in KMT2E might explain this divergence in phenotype, but requires independent validation. Disruptive variants in KMT2E are an under-recognized cause of neurodevelopmental abnormalities.

Published

2019

3. [P251]: Organization of topographic motor axon projections by LIM homeodomain transcription factors’ control of expression of the EphB1 receptor tyrosine kinase and its ephrin‐B2 ligand

Author

Luria, V., primary, Jessell, T., additional, Laufer, E., additional, and Kania, A., additional

Published

2006

4. Expression patterns of Slit and Robo family members during vertebrate limb development

Author

Vargesson, N., Luria, V., Messina, I., Erskine, L., and Laufer, E.

Published

2001

5. Lateral motor column axons execute a ternary trajectory choice between limb and body tissues

Author

Luria Victor and Laufer Ed

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Neuronal topographic map formation requires appropriate selection of axonal trajectories at intermediate choice points prior to target innervation. Axons of neurons in the spinal cord lateral motor column (LMC), as defined by a transcription factor code, are thought to innervate limb target tissues exclusively. Axons of the medial and lateral LMC divisions appear to execute a binary decision at the base of the limb as they choose between ventral and dorsal limb trajectories. The cellular logic that guides motor axon trajectory choices into non-limb tissues such as the ventral flank remains unclear. Results We determined the spinal cord motor column origin of motor nerves that innervate ventral flank tissues at hindlimb level. We found unexpectedly that a subset of medial LMC axons innervates ventral non-limb mesenchyme at hindlimb level, rather than entering ventral limb mesenchyme. We also found that in a conditional BmprIa mutant where all ventral hindlimb mesenchyme is converted to a dorsal identity, all medial LMC axons are redirected into the ventral flank, while lateral LMC axons innervate the bidorsal limb. Conclusion We have found that medial LMC neurons innervate both ventral flank and limb targets. While normally only a subset of medial LMC axons innervate the flank, all are capable of doing so. Furthermore, LMC axons execute a ternary, rather than binary, choice at the base of the limb between ventral flank, ventral limb and dorsal limb trajectories. When making this choice, medial and lateral LMC axons exhibit different and asymmetric relative preferences for these three trajectories. These data redefine the LMC as a motor column that innervates both limb and body tissues.

Published

2007

6. Organization of topographic motor axon projections by LIM homeodomain transcription factors’ control of expression of the EphB1 receptor tyrosine kinase and its ephrin-B2 ligand

Author

Luria, V., Jessell, T., Laufer, E., and Kania, A.

Published

2006

7. Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells.

Author

Kim SK, Seo S, Stein-O'Brien G, Jaishankar A, Ogawa K, Micali N, Luria V, Karger A, Wang Y, Kim H, Hyde TM, Kleinman JE, Voss T, Fertig EJ, Shin JH, Bürli R, Cross AJ, Brandon NJ, Weinberger DR, Chenoweth JG, Hoeppner DJ, Sestan N, Colantuoni C, and McKay RD

Subjects

Humans, Cell Line, Tretinoin pharmacology, Tretinoin metabolism, Gene Expression Regulation, Developmental, Epigenesis, Genetic, Pluripotent Stem Cells metabolism, Pluripotent Stem Cells cytology, Cell Differentiation genetics, Transcriptome, Cell Lineage genetics

Abstract

Variability between human pluripotent stem cell (hPSC) lines remains a challenge and opportunity in biomedicine. In this study, hPSC lines from multiple donors were differentiated toward neuroectoderm and mesendoderm lineages. We revealed dynamic transcriptomic patterns that delineate the emergence of these lineages, which were conserved across lines, along with individual line-specific transcriptional signatures that were invariant throughout differentiation. These transcriptomic signatures predicted an antagonism between SOX21-driven forebrain fates and retinoic acid-induced hindbrain fates. Replicate lines and paired adult tissue demonstrated the stability of these line-specific transcriptomic traits. We show that this transcriptomic variation in lineage bias had both genetic and epigenetic origins, aligned with the anterior-to-posterior structure of early mammalian development, and was present across a large collection of hPSC lines. These findings contribute to developing systematic analyses of PSCs to define the origin and consequences of variation in the early events orchestrating individual human development., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

8. Functional associations of evolutionarily recent human genes exhibit sensitivity to the 3D genome landscape and disease.

Author

Fleck K, Luria V, Garag N, Karger A, Hunter T, Marten D, Phu W, Nam KM, Sestan N, O'Donnell-Luria AH, and Erceg J

Abstract

Genome organization is intricately tied to regulating genes and associated cell fate decisions. In this study, we examine the positioning and functional significance of human genes, grouped by their evolutionary age, within the 3D organization of the genome. We reveal that genes of different evolutionary origin have distinct positioning relationships with both domains and loop anchors, and remarkably consistent relationships with boundaries across cell types. While the functional associations of each group of genes are primarily cell type-specific, such associations of conserved genes maintain greater stability across 3D genomic features and disease than recently evolved genes. Furthermore, the expression of these genes across various tissues follows an evolutionary progression, such that RNA levels increase from young genes to ancient genes. Thus, the distinct relationships of gene evolutionary age, function, and positioning within 3D genomic features contribute to tissue-specific gene regulation in development and disease., Competing Interests: Competing Interest Statement The authors declare no competing interests.

Published

2024

9. Human-specific features and developmental dynamics of the brain N-glycome.

Author

Klarić TS, Gudelj I, Santpere G, Novokmet M, Vučković F, Ma S, Doll HM, Risgaard R, Bathla S, Karger A, Nairn AC, Luria V, Bečeheli I, Sherwood CC, Ely JJ, Hof PR, Sousa AMM, Josić D, Lauc G, and Sestan N

Subjects

Adult, Humans, Rats, Animals, Glycosylation, Mass Spectrometry, Brain

Abstract

Comparative "omics" studies have revealed unique aspects of human neurobiology, yet an evolutionary perspective of the brain N-glycome is lacking. We performed multiregional characterization of rat, macaque, chimpanzee, and human brain N-glycomes using chromatography and mass spectrometry and then integrated these data with complementary glycotranscriptomic data. We found that, in primates, the brain N-glycome has diverged more rapidly than the underlying transcriptomic framework, providing a means for rapidly generating additional interspecies diversity. Our data suggest that brain N-glycome evolution in hominids has been characterized by an overall increase in complexity coupled with a shift toward increased usage of α(2-6)-linked N -acetylneuraminic acid. Moreover, interspecies differences in the cell type expression pattern of key glycogenes were identified, including some human-specific differences, which may underpin this evolutionary divergence. Last, by comparing the prenatal and adult human brain N-glycomes, we uncovered region-specific neurodevelopmental pathways that lead to distinct spatial N-glycosylation profiles in the mature brain.

Published

2023

10. Molecular and cellular mechanisms of human cortical connectivity.

Author

Luria V, Ma S, Shibata M, Pattabiraman K, and Sestan N

Subjects

Animals, Humans, Nerve Net physiology, Cerebral Cortex physiology, Primates

Abstract

Comparative studies of the cerebral cortex have identified various human and primate-specific changes in both local and long-range connectivity, which are thought to underlie our advanced cognitive capabilities. These changes are likely mediated by the divergence of spatiotemporal regulation of gene expression, which is particularly prominent in the prenatal and early postnatal human and non-human primate cerebral cortex. In this review, we describe recent advances in characterizing human and primate genetic and cellular innovations including identification of novel species-specific, especially human-specific, genes, gene expression patterns, and cell types. Finally, we highlight three recent studies linking these molecular changes to reorganization of cortical connectivity., Competing Interests: Conflict of interest Nothing declared., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

11. Developmental dynamics of RNA translation in the human brain.

Author

Duffy EE, Finander B, Choi G, Carter AC, Pritisanac I, Alam A, Luria V, Karger A, Phu W, Sherman MA, Assad EG, Pajarillo N, Khitun A, Crouch EE, Ganesh S, Chen J, Berger B, Sestan N, O'Donnell-Luria A, Huang EJ, Griffith EC, Forman-Kay JD, Moses AM, Kalish BT, and Greenberg ME

Subjects

Adult, Arginine genetics, Arginine metabolism, Brain metabolism, Glycine, Humans, RNA, Messenger metabolism, Gene Expression Regulation, Protein Biosynthesis

Abstract

The precise regulation of gene expression is fundamental to neurodevelopment, plasticity and cognitive function. Although several studies have profiled transcription in the developing human brain, there is a gap in understanding of accompanying translational regulation. In this study, we performed ribosome profiling on 73 human prenatal and adult cortex samples. We characterized the translational regulation of annotated open reading frames (ORFs) and identified thousands of previously unknown translation events, including small ORFs that give rise to human-specific and/or brain-specific microproteins, many of which we independently verified using proteomics. Ribosome profiling in stem-cell-derived human neuronal cultures corroborated these findings and revealed that several neuronal activity-induced non-coding RNAs encode previously undescribed microproteins. Physicochemical analysis of brain microproteins identified a class of proteins that contain arginine-glycine-glycine (RGG) repeats and, thus, may be regulators of RNA metabolism. This resource expands the known translational landscape of the human brain and illuminates previously unknown brain-specific protein products., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2022

12. Molecular and cellular evolution of the primate dorsolateral prefrontal cortex.

Author

Ma S, Skarica M, Li Q, Xu C, Risgaard RD, Tebbenkamp ATN, Mato-Blanco X, Kovner R, Krsnik Ž, de Martin X, Luria V, Martí-Pérez X, Liang D, Karger A, Schmidt DK, Gomez-Sanchez Z, Qi C, Gobeske KT, Pochareddy S, Debnath A, Hottman CJ, Spurrier J, Teo L, Boghdadi AG, Homman-Ludiye J, Ely JJ, Daadi EW, Mi D, Daadi M, Marín O, Hof PR, Rasin MR, Bourne J, Sherwood CC, Santpere G, Girgenti MJ, Strittmatter SM, Sousa AMM, and Sestan N

Subjects

Adult, Animals, Dopamine metabolism, Humans, Pan troglodytes, Single-Cell Analysis, Transcriptome, Dorsolateral Prefrontal Cortex cytology, Dorsolateral Prefrontal Cortex metabolism, Evolution, Molecular, Primates genetics, Somatostatin genetics, Somatostatin metabolism, Tyrosine 3-Monooxygenase genetics, Tyrosine 3-Monooxygenase metabolism

Abstract

The granular dorsolateral prefrontal cortex (dlPFC) is an evolutionary specialization of primates that is centrally involved in cognition. We assessed more than 600,000 single-nucleus transcriptomes from adult human, chimpanzee, macaque, and marmoset dlPFC. Although most cell subtypes defined transcriptomically are conserved, we detected several that exist only in a subset of species as well as substantial species-specific molecular differences across homologous neuronal, glial, and non-neural subtypes. The latter are exemplified by human-specific switching between expression of the neuropeptide somatostatin and tyrosine hydroxylase, the rate-limiting enzyme in dopamine production in certain interneurons. The above molecular differences are also illustrated by expression of the neuropsychiatric risk gene FOXP2 , which is human-specific in microglia and primate-specific in layer 4 granular neurons. We generated a comprehensive survey of the dlPFC cellular repertoire and its shared and divergent features in anthropoid primates.

Published

2022

13. Phylogenomic analyses of the genus Drosophila reveals genomic signals of climate adaptation.

Author

Li F, Rane RV, Luria V, Xiong Z, Chen J, Li Z, Catullo RA, Griffin PC, Schiffer M, Pearce S, Lee SF, McElroy K, Stocker A, Shirriffs J, Cockerell F, Coppin C, Sgrò CM, Karger A, Cain JW, Weber JA, Santpere G, Kirschner MW, Hoffmann AA, Oakeshott JG, and Zhang G

Subjects

Adaptation, Physiological genetics, Animals, Genomics, Humans, Phylogeny, Drosophila genetics, Genome

Abstract

Many Drosophila species differ widely in their distributions and climate niches, making them excellent subjects for evolutionary genomic studies. Here, we have developed a database of high-quality assemblies for 46 Drosophila species and one closely related Zaprionus. Fifteen of the genomes were newly sequenced, and 20 were improved with additional sequencing. New or improved annotations were generated for all 47 species, assisted by new transcriptomes for 19. Phylogenomic analyses of these data resolved several previously ambiguous relationships, especially in the melanogaster species group. However, it also revealed significant phylogenetic incongruence among genes, mainly in the form of incomplete lineage sorting in the subgenus Sophophora but also including asymmetric introgression in the subgenus Drosophila. Using the phylogeny as a framework and taking into account these incongruences, we then screened the data for genome-wide signals of adaptation to different climatic niches. First, phylostratigraphy revealed relatively high rates of recent novel gene gain in three temperate pseudoobscura and five desert-adapted cactophilic mulleri subgroup species. Second, we found differing ratios of nonsynonymous to synonymous substitutions in several hundred orthologues between climate generalists and specialists, with trends for significantly higher ratios for those in tropical and lower ratios for those in temperate-continental specialists respectively than those in the climate generalists. Finally, resequencing natural populations of 13 species revealed tropics-restricted species generally had smaller population sizes, lower genome diversity and more deleterious mutations than the more widespread species. We conclude that adaptation to different climates in the genus Drosophila has been associated with large-scale and multifaceted genomic changes., (© 2021 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2022

14. Noncanonical open reading frames encode functional proteins essential for cancer cell survival.

Author

Prensner JR, Enache OM, Luria V, Krug K, Clauser KR, Dempster JM, Karger A, Wang L, Stumbraite K, Wang VM, Botta G, Lyons NJ, Goodale A, Kalani Z, Fritchman B, Brown A, Alan D, Green T, Yang X, Jaffe JD, Roth JA, Piccioni F, Kirschner MW, Ji Z, Root DE, and Golub TR

Subjects

Cell Line, Tumor, Clustered Regularly Interspaced Short Palindromic Repeats, HEK293 Cells, Humans, Neoplasm Proteins physiology, Neoplasms genetics, Open Reading Frames, Cell Survival physiology, Neoplasm Proteins genetics, Neoplasms pathology

Abstract

Although genomic analyses predict many noncanonical open reading frames (ORFs) in the human genome, it is unclear whether they encode biologically active proteins. Here we experimentally interrogated 553 candidates selected from noncanonical ORF datasets. Of these, 57 induced viability defects when knocked out in human cancer cell lines. Following ectopic expression, 257 showed evidence of protein expression and 401 induced gene expression changes. Clustered regularly interspaced short palindromic repeat (CRISPR) tiling and start codon mutagenesis indicated that their biological effects required translation as opposed to RNA-mediated effects. We found that one of these ORFs, G029442-renamed glycine-rich extracellular protein-1 (GREP1)-encodes a secreted protein highly expressed in breast cancer, and its knockout in 263 cancer cell lines showed preferential essentiality in breast cancer-derived lines. The secretome of GREP1-expressing cells has an increased abundance of the oncogenic cytokine GDF15, and GDF15 supplementation mitigated the growth-inhibitory effect of GREP1 knockout. Our experiments suggest that noncanonical ORFs can express biologically active proteins that are potential therapeutic targets.

Published

2021

15. The Geometry of Limb Motor Innervation is Controlled by the Dorsal-Ventral Compartment Boundary in the Chick Limbless Mutant.

Author

Luria V and Laufer E

Subjects

Animals, Axons, Chickens, Spinal Cord, Extremities, Motor Neurons

Abstract

Precise control of limb muscles, and ultimately of limb movement, requires accurate motor innervation. Motor innervation of the vertebrate limb is established by sequential selection of trajectories at successive decision points. Motor axons of the lateral motor column (LMC) segregate at the base of the limb into two groups that execute a choice between dorsal and ventral tissue: medial LMC axons innervate the ventral limb, whereas lateral LMC axons innervate the dorsal limb. We investigated how LMC axons are targeted to the limb using the chick mutant limbless (ll), which has a dorsal transformation of the ventral limb mesenchyme. In ll the spatial pattern of motor projections to the limb is abnormal while their targeting is normal. While extensive, the dorsal transformation of the ll ventral limb mesenchyme is incomplete whereas the generation, specification and targeting of spinal motor neurons are apparently unaffected. Thus, the dorsal-ventral motor axon segregation is an active choice that is independent of the ratio between dorsal and ventral tissue but dependent on the presence of both tissues. Therefore, the fidelity of the motor projections to the limb depends on the presence of both dorsal and ventral compartments, while the geometry of motor projections is controlled by the position of limb dorsal-ventral compartment boundary., (Copyright © 2020 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2020

16. The whale shark genome reveals how genomic and physiological properties scale with body size.

Author

Weber JA, Park SG, Luria V, Jeon S, Kim HM, Jeon Y, Bhak Y, Jun JH, Kim SW, Hong WH, Lee S, Cho YS, Karger A, Cain JW, Manica A, Kim S, Kim JH, Edwards JS, Bhak J, and Church GM

Subjects

Animals, Base Sequence genetics, Body Size genetics, Genome genetics, Genomics methods, Longevity genetics, Sharks metabolism, Temperature, Adaptation, Physiological genetics, Body Size physiology, Sharks genetics

Abstract

The endangered whale shark ( Rhincodon typus ) is the largest fish on Earth and a long-lived member of the ancient Elasmobranchii clade. To characterize the relationship between genome features and biological traits, we sequenced and assembled the genome of the whale shark and compared its genomic and physiological features to those of 83 animals and yeast. We examined the scaling relationships between body size, temperature, metabolic rates, and genomic features and found both general correlations across the animal kingdom and features specific to the whale shark genome. Among animals, increased lifespan is positively correlated to body size and metabolic rate. Several genomic traits also significantly correlated with body size, including intron and gene length. Our large-scale comparative genomic analysis uncovered general features of metazoan genome architecture: Guanine and cytosine (GC) content and codon adaptation index are negatively correlated, and neural connectivity genes are longer than average genes in most genomes. Focusing on the whale shark genome, we identified multiple features that significantly correlate with lifespan. Among these were very long gene length, due to introns being highly enriched in repetitive elements such as CR1-like long interspersed nuclear elements, and considerably longer neural genes of several types, including connectivity, activity, and neurodegeneration genes. The whale shark genome also has the second slowest evolutionary rate observed in vertebrates to date. Our comparative genomics approach uncovered multiple genetic features associated with body size, metabolic rate, and lifespan and showed that the whale shark is a promising model for studies of neural architecture and lifespan., Competing Interests: The authors declare no competing interest.

Published

2020

17. Apcdd1 is a dual BMP/Wnt inhibitor in the developing nervous system and skin.

Author

Vonica A, Bhat N, Phan K, Guo J, Iancu L, Weber JA, Karger A, Cain JW, Wang ECE, DeStefano GM, O'Donnell-Luria AH, Christiano AM, Riley B, Butler SJ, and Luria V

Subjects

Animals, Bone Morphogenetic Proteins genetics, Membrane Glycoproteins genetics, Protein Domains, Xenopus Proteins genetics, Xenopus laevis, Body Patterning, Bone Morphogenetic Proteins metabolism, Embryo, Nonmammalian embryology, Membrane Glycoproteins metabolism, Wnt Signaling Pathway, Xenopus Proteins metabolism

Abstract

Animal development and homeostasis depend on precise temporal and spatial intercellular signaling. Components shared between signaling pathways, generally thought to decrease specificity, paradoxically can also provide a solution to pathway coordination. Here we show that the Bone Morphogenetic Protein (BMP) and Wnt signaling pathways share Apcdd1 as a common inhibitor and that Apcdd1 is a taxon-restricted gene with novel domains and signaling functions. Previously, we showed that Apcdd1 inhibits Wnt signaling (Shimomura et al., 2010), here we find that Apcdd1 potently inhibits BMP signaling in body axis formation and neural differentiation in chicken, frog, zebrafish. Furthermore, we find that Apcdd1 has an evolutionarily novel protein domain. Our results from experiments and modeling suggest that Apcdd1 may coordinate the outputs of two signaling pathways that are central to animal development and human disease., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

18. Sub-Acute Treatment of Curcumin Derivative J147 Ameliorates Depression-Like Behavior Through 5-HT 1A -Mediated cAMP Signaling.

Author

Li J, Chen L, Li G, Chen X, Hu S, Zheng L, Luria V, Lv J, Sun Y, Xu Y, and Yu Y

Abstract

Background: Major depressive disorder (MDD) is a severe mental disorder related to the deficiency of monoamine neurotransmitters, particularly to abnormalities of 5-HT (5-hydroxytryptamine, serotonin) and its receptors. Our previous study suggested that acute treatment with a novel curcumin derivative J147 exhibited antidepressant-like effects by increasing brain derived neurotrophic factor (BDNF) level in the hippocampus of mice. The present study expanded upon our previous findings and investigated the antidepressant-like effects of sub-acute treatment of J147 for 3 days in male ICR mice and its possible relevancy to 5-HT 1A and 5-HT 1B receptors and downstream cAMP-BDNF signaling., Methods: J147 at doses of 1, 3, and 9 mg/kg (via gavage) was administered for 3 days, and the anti-immobility time in the forced swimming and tail suspension tests (FST and TST) was recorded. The radioligand binding assay was used to determine the affinity of J147 to 5-HT 1A and 5-HT 1B receptor. Moreover, 5-HT 1A or 5-HT 1B agonist or its antagonist was used to determine which 5-HT receptor subtype is involved in the antidepressant-like effects of J147. The downstream signaling molecules such as cAMP, PKA, pCREB, and BDNF were also measured to determine the mechanism of action., Results: The results demonstrated that sub-acute treatment of J147 remarkably decreased the immobility time in both the FST and TST in a dose-dependent manner. J147 displayed high affinity in vitro to 5-HT 1A receptor prepared from mice cortical tissue and was less potent at 5-HT 1B receptor. These effects of J147 were blocked by pretreatment with a 5-HT 1A antagonist NAD-299 and enhanced by a 5-HT 1A agonist 8-OH-DPAT. However, 5-HT 1B receptor antagonist NAS-181 did not appreciably alter the effects of J147 on depression-like behaviors. Moreover, pretreatment with NAD-299 blocked J147-induced increases in cAMP, PKA, pCREB, and BDNF expression in the hippocampus, while 8-OH-DPAT enhanced the effects of J147 on these proteins' expression., Conclusion: The results suggest that J147 induces rapid antidepressant-like effects during a 3-day treatment period without inducing drug tolerance. These effects might be mediated by 5-HT 1A -dependent cAMP/PKA/pCREB/BDNF signaling., (Copyright © 2020 Li, Chen, Li, Chen, Hu, Zheng, Luria, Lv, Sun, Xu and Yu.)

Published

2020

19. trans -Resveratrol ameliorates anxiety-like behaviors and neuropathic pain in mouse model of post-traumatic stress disorder.

Author

Yuan Y, Zhen L, Li Z, Xu W, Leng H, Xu W, Zheng V, Luria V, Pan J, Tao Y, Zhang H, Cao S, and Xu Y

Subjects

Animals, Anxiety pathology, Behavior, Animal drug effects, Disease Models, Animal, Hypothalamo-Hypophyseal System metabolism, Locomotion drug effects, Male, Mice, Mice, Inbred ICR, Neuralgia pathology, Neuroprotective Agents pharmacology, Pituitary-Adrenal System metabolism, Stress Disorders, Post-Traumatic physiopathology, Anxiety drug therapy, Neuralgia drug therapy, Resveratrol pharmacology, Stress Disorders, Post-Traumatic drug therapy

Abstract

Background: trans -Resveratrol has been extensively investigated for its anti-inflammatory, antioxidant, and anti-psychiatric properties. However, whether it could rescue posttraumatic stress disorder-like stress-induced pain abnormality is unknown., Aim: The present study examined the effects of trans -resveratrol on anxiety-like behavior and neuropathic pain induced by single-prolonged stress, which is a classical animal model for mimicking posttraumatic stress disorder., Methods: The single-prolonged stress-induced anxiety-like behavior and pain response were detected by the novelty suppressed feeding, marble burying, locomotor activity, von Frey, and acetone-induced cold allodynia tests in mice. The serum corticosterone levels and glucocorticoid receptor, protein kinase A, phosphorylated cAMP response element binding protein, and brain-derived neurotrophic factor expression were detected by enzyme-linked immunosorbent assay and immunoblot analyses., Results: trans -Resveratrol reversed single-prolonged stress-induced increased latency to feed and the number of marbles buried in the novelty suppressed feeding and marble burying tests, but did not significantly influence locomotion distance in the locomotor activity test. trans -Resveratrol also reversed single-prolonged stress-induced cold and mechanical allodynia. Moreover, single-prolonged stress induced abnormality in the limbic hypothalamus-pituitary-adrenal axis was reversed by trans -resveratrol, as evidenced by the fact that trans -resveratrol reversed the differential expression of glucocorticoid receptor in the anxiety- and pain-related regions. In addition, trans -resveratrol increased protein kinase A, phosphorylated cAMP response element binding protein, and brain-derived neurotrophic factor levels, which were decreased in mice subjected to single-prolonged stress., Conclusions: These results provide compelling evidence that trans -resveratrol protects neurons against posttraumatic stress disorder-like stress insults through regulation of limbic hypothalamus-pituitary-adrenal axis function and activation of downstream neuroprotective molecules such as protein kinase A, phosphorylated cAMP response element binding protein, and brain-derived neurotrophic factor expression.

Published

2020

20. Heterozygous Variants in KMT2E Cause a Spectrum of Neurodevelopmental Disorders and Epilepsy.

Author

O'Donnell-Luria AH, Pais LS, Faundes V, Wood JC, Sveden A, Luria V, Abou Jamra R, Accogli A, Amburgey K, Anderlid BM, Azzarello-Burri S, Basinger AA, Bianchini C, Bird LM, Buchert R, Carre W, Ceulemans S, Charles P, Cox H, Culliton L, Currò A, Demurger F, Dowling JJ, Duban-Bedu B, Dubourg C, Eiset SE, Escobar LF, Ferrarini A, Haack TB, Hashim M, Heide S, Helbig KL, Helbig I, Heredia R, Héron D, Isidor B, Jonasson AR, Joset P, Keren B, Kok F, Kroes HY, Lavillaureix A, Lu X, Maas SM, Maegawa GHB, Marcelis CLM, Mark PR, Masruha MR, McLaughlin HM, McWalter K, Melchinger EU, Mercimek-Andrews S, Nava C, Pendziwiat M, Person R, Ramelli GP, Ramos LLP, Rauch A, Reavey C, Renieri A, Rieß A, Sanchez-Valle A, Sattar S, Saunders C, Schwarz N, Smol T, Srour M, Steindl K, Syrbe S, Taylor JC, Telegrafi A, Thiffault I, Trauner DA, van der Linden H Jr, van Koningsbruggen S, Villard L, Vogel I, Vogt J, Weber YG, Wentzensen IM, Widjaja E, Zak J, Baxter S, Banka S, and Rodan LH

Subjects

Adolescent, Adult, Child, Child, Preschool, Epilepsy pathology, Female, Haploinsufficiency, Humans, Infant, Male, Neurodevelopmental Disorders pathology, Pedigree, Phenotype, Young Adult, DNA-Binding Proteins genetics, Epilepsy etiology, Genetic Variation, Heterozygote, Neurodevelopmental Disorders etiology

Abstract

We delineate a KMT2E-related neurodevelopmental disorder on the basis of 38 individuals in 36 families. This study includes 31 distinct heterozygous variants in KMT2E (28 ascertained from Matchmaker Exchange and three previously reported), and four individuals with chromosome 7q22.2-22.23 microdeletions encompassing KMT2E (one previously reported). Almost all variants occurred de novo, and most were truncating. Most affected individuals with protein-truncating variants presented with mild intellectual disability. One-quarter of individuals met criteria for autism. Additional common features include macrocephaly, hypotonia, functional gastrointestinal abnormalities, and a subtle facial gestalt. Epilepsy was present in about one-fifth of individuals with truncating variants and was responsive to treatment with anti-epileptic medications in almost all. More than 70% of the individuals were male, and expressivity was variable by sex; epilepsy was more common in females and autism more common in males. The four individuals with microdeletions encompassing KMT2E generally presented similarly to those with truncating variants, but the degree of developmental delay was greater. The group of four individuals with missense variants in KMT2E presented with the most severe developmental delays. Epilepsy was present in all individuals with missense variants, often manifesting as treatment-resistant infantile epileptic encephalopathy. Microcephaly was also common in this group. Haploinsufficiency versus gain-of-function or dominant-negative effects specific to these missense variants in KMT2E might explain this divergence in phenotype, but requires independent validation. Disruptive variants in KMT2E are an under-recognized cause of neurodevelopmental abnormalities., (Copyright © 2019 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2019

21. The genome of the giant Nomura's jellyfish sheds light on the early evolution of active predation.

Author

Kim HM, Weber JA, Lee N, Park SG, Cho YS, Bhak Y, Lee N, Jeon Y, Jeon S, Luria V, Karger A, Kirschner MW, Jo YJ, Woo S, Shin K, Chung O, Ryu JC, Yim HS, Lee JH, Edwards JS, Manica A, Bhak J, and Yum S

Subjects

Animals, Biological Evolution, Phylogeny, Scyphozoa genetics, Evolution, Molecular, Genome physiology, Predatory Behavior, Scyphozoa physiology

Abstract

Background: Unique among cnidarians, jellyfish have remarkable morphological and biochemical innovations that allow them to actively hunt in the water column and were some of the first animals to become free-swimming. The class Scyphozoa, or true jellyfish, are characterized by a predominant medusa life-stage consisting of a bell and venomous tentacles used for hunting and defense, as well as using pulsed jet propulsion for mobility. Here, we present the genome of the giant Nomura's jellyfish (Nemopilema nomurai) to understand the genetic basis of these key innovations., Results: We sequenced the genome and transcriptomes of the bell and tentacles of the giant Nomura's jellyfish as well as transcriptomes across tissues and developmental stages of the Sanderia malayensis jellyfish. Analyses of the Nemopilema and other cnidarian genomes revealed adaptations associated with swimming, marked by codon bias in muscle contraction and expansion of neurotransmitter genes, along with expanded Myosin type II family and venom domains, possibly contributing to jellyfish mobility and active predation. We also identified gene family expansions of Wnt and posterior Hox genes and discovered the important role of retinoic acid signaling in this ancient lineage of metazoans, which together may be related to the unique jellyfish body plan (medusa formation)., Conclusions: Taken together, the Nemopilema jellyfish genome and transcriptomes genetically confirm their unique morphological and physiological traits, which may have contributed to the success of jellyfish as early multi-cellular predators.

Published

2019

22. Inhibition of phosphodiesterase 2 reverses gp91phox oxidase-mediated depression- and anxiety-like behavior.

Author

Huang X, Xiaokaiti Y, Yang J, Pan J, Li Z, Luria V, Li Y, Song G, Zhu X, Zhang HT, O'Donnell JM, and Xu Y

Subjects

Animals, Antioxidants pharmacology, Anxiety Disorders metabolism, Cell Line, Corticosterone administration & dosage, Corticosterone metabolism, Cyclic Nucleotide Phosphodiesterases, Type 2 metabolism, Depressive Disorder metabolism, Dose-Response Relationship, Drug, Hippocampus drug effects, Hippocampus metabolism, Male, Mice, Inbred ICR, NADPH Oxidase 2 genetics, NADPH Oxidases antagonists & inhibitors, NADPH Oxidases metabolism, Neurons drug effects, Neurons metabolism, Oxidative Stress drug effects, Oxidative Stress physiology, Psychotropic Drugs pharmacology, Reactive Oxygen Species metabolism, Anxiety Disorders drug therapy, Cyclic Nucleotide Phosphodiesterases, Type 2 antagonists & inhibitors, Depressive Disorder drug therapy, Imidazoles pharmacology, NADPH Oxidase 2 metabolism, Phosphodiesterase Inhibitors pharmacology, Triazines pharmacology

Abstract

Phosphodiesterase 2 (PDE2) plays an important role in treatment of stress-related depression through regulation of antioxidant defense and neuroprotective mechanisms. However, the causal relationship between PDE2 and the prevalence of depression and anxiety upon exposure to oxidative stress has not been investigated. The present study examined whether the effects of PDE2 inhibition on oxidative stress were directly involved in reduced ROS by regulating NADPH subunits gp91phox oxidase. The results suggested that the PDE2 inhibitor Bay 60-7550 reversed oxidative stress-induced behavioral signature, i.e. depression and anxiety. Pretreatment with the oxidizing agent DTNB completely blocked, while the reducing agent DTT and the NADPH oxidase inhibitor apocynin potentiated the effects of Bay 60-7550 on behavioral abnormalities, demonstrating the relationship between PDE2 and oxidative stress. Consistently, an in vitro test revealed the positive correlation between ROS and PDE2 levels. Moreover, Bay 60-7550 decreased corticosterone-induced gp91phox expression, which is the source of ROS. The subsequent study suggested that Bay 60-7550 induced decrease in ROS and increase in cAMP/cGMP, pVASP, pCREB, and the neurotrophic factor BDNF levels, which were completely blocked by CRISPR/Cas9-mediated gp91phox overexpression and potentiated by gp91phox siRNA-based antioxidant strategies. The in vivo test in stressed mice further suggested that gp91phox overexpression completely blocked the antidepressant- and anxiolytic-like effects of Bay 60-7550, while gp91phox knockdown enhanced such effects. These results provide solid evidence that the antidepressant- and anxiolytic-like effects of Bay 60-7550 against stress are causally related to down-regulation of gp91phox and activation of the cAMP/cGMP-pVASP-CREB-BDNF signaling pathway., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

23. EphB2 Deficiency Induces Depression-Like Behaviors and Memory Impairment: Involvement of NMDA 2B Receptor Dependent Signaling.

Author

Zhen L, Shao T, Luria V, Li G, Li Z, Xu Y, and Zhao X

Abstract

Receptor tyrosine kinase EphB2 mediates development of the neurogenic niche of excitatory neurons, suggesting the possibility that its inactivation plays a role in neuropsychiatric disorders including depression and memory impairment. While N-methyl-D-aspartate (NMDA) receptor is involved in regulating memory formation and neurogenesis in adult animal, it remains unclear how NMDA receptor subtypes mediate depression and cognitive deficits caused by EphB2 loss. The present study shows that EphB2 inactivation results in depression-like behaviors, memory impairment and defects of adult hippocampal neurogenesis. Compared to wild-type littermates, EphB2 KO mice exhibited depression-like behavior and deficits in spatial memory and cognition in forced swimming, tail suspension, Morris water maze, object recognition test and object location test. These behavioral abnormalities were accompanied by substantial decreases in the number of BrdU+ progenitor neurons, phosphorylation of cAMP-response element binding protein (pCREB) and brain derived neurotrophic factor (BDNF), and increased NMDA receptor 2B (NR2B) expression. These molecular, cellular and behavioral alterations induced by EphB2 inactivation were reversed by NR2B antagonist Ro25-6981, suggesting that EphB2 functions to prevent the progression of depression-like behavior and memory impairment by downregulating NR2B. Our findings highlight that NR2B is responsible for EphB2-dependent behavioral and morphological changes. EphB2 may thus be as an important candidate target for treating psychiatric and cognitive disorders.

Published

2018

24. The Gonium pectorale genome demonstrates co-option of cell cycle regulation during the evolution of multicellularity.

Author

Hanschen ER, Marriage TN, Ferris PJ, Hamaji T, Toyoda A, Fujiyama A, Neme R, Noguchi H, Minakuchi Y, Suzuki M, Kawai-Toyooka H, Smith DR, Sparks H, Anderson J, Bakarić R, Luria V, Karger A, Kirschner MW, Durand PM, Michod RE, Nozaki H, and Olson BJ

Subjects

Biological Evolution, Chlamydomonas cytology, Chlorophyta classification, Chlorophyta cytology, Genome Size, Phylogeny, Plant Cells metabolism, Plasmids chemistry, Plasmids metabolism, Retinoblastoma Protein genetics, Retinoblastoma Protein metabolism, Transformation, Genetic, Cell Cycle Checkpoints genetics, Chlamydomonas genetics, Chlorophyta genetics, Gene Expression Regulation, Plant, Genome, Plant

Abstract

The transition to multicellularity has occurred numerous times in all domains of life, yet its initial steps are poorly understood. The volvocine green algae are a tractable system for understanding the genetic basis of multicellularity including the initial formation of cooperative cell groups. Here we report the genome sequence of the undifferentiated colonial alga, Gonium pectorale, where group formation evolved by co-option of the retinoblastoma cell cycle regulatory pathway. Significantly, expression of the Gonium retinoblastoma cell cycle regulator in unicellular Chlamydomonas causes it to become colonial. The presence of these changes in undifferentiated Gonium indicates extensive group-level adaptation during the initial step in the evolution of multicellularity. These results emphasize an early and formative step in the evolution of multicellularity, the evolution of cell cycle regulation, one that may shed light on the evolutionary history of other multicellular innovations and evolutionary transitions.

Published

2016

25. APCDD1 is a novel Wnt inhibitor mutated in hereditary hypotrichosis simplex.

Author

Shimomura Y, Agalliu D, Vonica A, Luria V, Wajid M, Baumer A, Belli S, Petukhova L, Schinzel A, Brivanlou AH, Barres BA, and Christiano AM

Subjects

Animals, Cell Differentiation, Cell Line, Cell Proliferation, Chick Embryo, Chromosome Mapping, Chromosomes, Human, Pair 18 genetics, Genes, Dominant genetics, Genes, Reporter genetics, Hair growth & development, Hair metabolism, Hair Follicle growth & development, Hair Follicle metabolism, Hair Follicle pathology, Humans, Hypotrichosis metabolism, Hypotrichosis pathology, Intracellular Signaling Peptides and Proteins, Membrane Glycoproteins chemistry, Membrane Glycoproteins deficiency, Membrane Proteins, Mice, Mutant Proteins genetics, Mutant Proteins metabolism, Neurons cytology, Neurons metabolism, Scalp, Signal Transduction, Skin, Spinal Cord cytology, Stem Cells cytology, Stem Cells metabolism, Wnt Proteins genetics, Wnt Proteins metabolism, Xenopus Proteins deficiency, Xenopus Proteins genetics, Xenopus Proteins metabolism, Xenopus laevis embryology, Xenopus laevis genetics, Xenopus laevis metabolism, beta Catenin metabolism, Hypotrichosis genetics, Membrane Glycoproteins genetics, Membrane Glycoproteins metabolism, Point Mutation genetics, Wnt Proteins antagonists & inhibitors

Abstract

Hereditary hypotrichosis simplex is a rare autosomal dominant form of hair loss characterized by hair follicle miniaturization. Using genetic linkage analysis, we mapped a new locus for the disease to chromosome 18p11.22, and identified a mutation (Leu9Arg) in the adenomatosis polyposis down-regulated 1 (APCDD1) gene in three families. We show that APCDD1 is a membrane-bound glycoprotein that is abundantly expressed in human hair follicles, and can interact in vitro with WNT3A and LRP5-two essential components of Wnt signalling. Functional studies show that APCDD1 inhibits Wnt signalling in a cell-autonomous manner and functions upstream of beta-catenin. Moreover, APCDD1 represses activation of Wnt reporters and target genes, and inhibits the biological effects of Wnt signalling during both the generation of neurons from progenitors in the developing chick nervous system, and axis specification in Xenopus laevis embryos. The mutation Leu9Arg is located in the signal peptide of APCDD1, and perturbs its translational processing from the endoplasmic reticulum to the plasma membrane. APCDD1(L9R) probably functions in a dominant-negative manner to inhibit the stability and membrane localization of the wild-type protein. These findings describe a novel inhibitor of the Wnt signalling pathway with an essential role in human hair growth. As APCDD1 is expressed in a broad repertoire of cell types, our findings indicate that APCDD1 may regulate a diversity of biological processes controlled by Wnt signalling.

Published

2010

26. Specification of motor axon trajectory by ephrin-B:EphB signaling: symmetrical control of axonal patterning in the developing limb.

Author

Luria V, Krawchuk D, Jessell TM, Laufer E, and Kania A

Subjects

Animals, Chick Embryo, Electroporation methods, Embryo, Mammalian, Ephrins deficiency, Ephrins genetics, Extremities embryology, Gene Expression Regulation, Developmental physiology, Green Fluorescent Proteins genetics, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Horseradish Peroxidase metabolism, LIM-Homeodomain Proteins, Mice, Mice, Knockout, Models, Biological, Mutation physiology, Neurofilament Proteins genetics, Neurofilament Proteins metabolism, RNA, Messenger metabolism, Receptors, Eph Family metabolism, Spinal Cord cytology, Spinal Cord embryology, Transcription Factors genetics, Transcription Factors metabolism, Axons physiology, Body Patterning genetics, Ephrins metabolism, Extremities innervation, Motor Neurons cytology, Signal Transduction physiology

Abstract

Studies of the innervation of limb muscles by spinal motor neurons have helped to define mechanisms by which axons establish trajectories to their targets. Related motor axons select dorsal or ventral pathways at the base of the limb, raising the question of how these alternate trajectories are specified. EphA signaling has been proposed to control the dorsal trajectory of motor axons in conjunction with other signaling systems, although the respective contributions of each system to motor axon guidance are unclear. We show that the expression of EphB receptors by motor axons, and ephrin-B ligands by limb mesenchymal cells, directs the ventral trajectory of motor axons. Our findings reveal symmetry in the molecular strategies that establish this aspect of nerve-muscle connectivity. The involvement of ephrin:Eph signaling in guiding both sets of motor axons raises the possibility that other signaling systems function primarily to refine or modulate a core Eph signaling program.

Published

2008

27. Targeted disruption of the mouse Caspase 8 gene ablates cell death induction by the TNF receptors, Fas/Apo1, and DR3 and is lethal prenatally.

Author

Varfolomeev EE, Schuchmann M, Luria V, Chiannilkulchai N, Beckmann JS, Mett IL, Rebrikov D, Brodianski VM, Kemper OC, Kollet O, Lapidot T, Soffer D, Sobe T, Avraham KB, Goncharov T, Holtmann H, Lonai P, and Wallach D

Subjects

Animals, Caspase 8, Caspase 9, Cell Death drug effects, Cell Death genetics, Cells, Cultured drug effects, DNA, Complementary genetics, Fetal Death genetics, Fibroblasts drug effects, Fibroblasts physiology, Gestational Age, Mice, Mice, Inbred C57BL, Mice, Knockout embryology, Phenotype, Receptors, Tumor Necrosis Factor, Member 25, Transcription, Genetic genetics, fas Receptor pharmacology, Caspases, Cysteine Endopeptidases genetics, Cysteine Endopeptidases physiology, Fibroblasts cytology, Gene Targeting, Genes, Lethal genetics, Receptors, Tumor Necrosis Factor physiology, fas Receptor physiology

Abstract

Homozygous targeted disruption of the mouse Caspase 8 (Casp8) gene was found to be lethal in utero. The Caspase 8 null embryos exhibited impaired heart muscle development and congested accumulation of erythrocytes. Recovery of hematopoietic colony-forming cells from the embryos was very low. In fibroblast strains derived from these embryos, the TNF receptors, Fas/Apo1, and DR3 were able to activate the Jun N-terminal kinase and to trigger IkappaB alpha phosphorylation and degradation. They failed, however, to induce cell death, while doing so effectively in wild-type fibroblasts. These findings indicate that Caspase 8 plays a necessary and nonredundant role in death induction by several receptors of the TNF/NGF family and serves a vital role in embryonal development.

Published

1998

28. Maternally expressed PGK-Cre transgene as a tool for early and uniform activation of the Cre site-specific recombinase.

Author

Lallemand Y, Luria V, Haffner-Krausz R, and Lonai P

Subjects

Animals, Crosses, Genetic, Embryonic and Fetal Development, Female, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Transgenic, Oogenesis, Ovary enzymology, Phosphoglycerate Kinase genetics, Plasmids, Pregnancy, Promoter Regions, Genetic, Recombination, Genetic, Testis enzymology, Gene Expression, Integrases genetics, Integrases metabolism, Transgenes, Viral Proteins

Abstract

A transgenic mouse strain with early and uniform expression of the Cre site-specific recombinase is described. In this strain, PGK-Crem, Cre is driven by the early acting PGK-1 promoter, but, probably due to cis effects at the integration site, the recombinase is under dominant maternal control. When Cre is transmitted by PGK-Crem females mated to males that carry a reporter transgene flanked by loxP sites, even offspring that do not inherit PGK-Cre delete the target gene. It follows that in the PGK-Crem female Cre activity commences in the diploid phase of oogenesis. In PGK-Crem crosses complete recombination was observed in all organs, including testis and ovary. We prepared a mouse stock that is homozygous for PGK-Crem and at the albino (c) locus. This strain will be useful for the early and uniform induction of ectopic and dominant negative mutations, for the in vivo removal of selective elements from targeted mutations and in connection with the manipulation of targeted loci in 'knock in' and related technologies.

Published

1998