Your search keyword '"Morgan, James I."' showing total 186 results

151. Fluid power meets global challenges

Author

Morgan, James I.

Subjects

National Fluid Power Association -- Planning, Fluid power technology -- International aspects

Published

1985

152. INBOX.

Author

MEEHAN, HENRY, Johnson, Dave, KRINKE, WADE, HART, DANIEL, MORGAN, JAMES I., SPENCER, MELVIN, JOYCE, TIM, ALBRIGHT, DEL, VAN NES, DEREK, and MAYO, GREG

Subjects

LETTERS to the editor, FOUR-wheel drive vehicles, AWARDS, AUTOMOBILE tires, AUTOMOBILE fuel systems

Abstract

Several letters to the editor are presented in response to articles in previous issues including "Four Wheeler of the Year" in the April 2011 issue, "Massive Mud Tire Shootout" in the April 2011 issue, and "Diesel Tech: 1,000 Miles Between Fill-Ups" in the March 2011 issue.

Published

2011

153. Cheers & Jeers.

Author

Gornto, Charlene, Yurkovich, Mitch, Morgan, James I., Daniel, Jim, Peterson, Tony, Beck, Dan, Sweeney, David, Larkin, Scott, and Hall, Jerry

Subjects

LETTERS to the editor, VENISON, TIGERS, WILDLIFE conservation, ENERGY conservation

Abstract

Several letters to the editor are presented in response to articles in previous issues including "America's Meat," by Charlene Gornto in the December 2009-January 2010 issue, "The Last Tiger" by Mitch Yurkovich and "Green Energy Land Rush" by James I. Morgan.

Published

2010

154. Impaired Locomotor Learning and Altered Cerebellar Synaptic Plasticity in pep-19/pcp4-Null Mice.

Author

Peng Wei, Blundon, Jay A., Yongqi Rong, Zakharenko, Stanislav S., and Morgan, James I.

Subjects

DOWN syndrome, MOTOR learning, NEUROPLASTICITY, PROTEINS, MICE

Abstract

PEP-19/PCP4 maps within the Down syndrome critical region and encodes a small, predominantly neuronal, IQ motif protein. Pep-19 binds calmodulin and inhibits calmodulin-dependent signaling, which is critical for synaptic function, and therefore alterations in Pep-19 levels may affect synaptic plasticity and behavior. To investigate its possible role, we generated and characterized pep-19/pcp4-null mice. Synaptic plasticity at excitatory synapses of cerebellar Purkinje cells, which express the highest levels of Pep-19, was dramatically altered in pep-19/pcp4-null mice. Instead of long-term depression, pep-19/pcp4-null mice exhibited long-term potentiation at parallel fiber-Purkinje cell synapses. The mutant mice have a marked deficit in their ability to learn a locomotor task, as measured by improved performance upon repeated testing on an accelerating rotarod. Thus, our data indicate that pep-19/pcp4 is a critical determinant of synaptic plasticity in cerebellum and locomotor learning. [ABSTRACT FROM AUTHOR]

Published

2011

155. Cbln1 Is Essential for Interaction-Dependent Secretion of Cbln3.

Author

Dashi Bao, Zhen Pang, Morgan, Marc A., Parris, Jennifer, Yongqi Rong, Leyi Li, and Morgan, James I.

Subjects

CELL receptors, LABORATORY mice, ENDOPLASMIC reticulum, ARGININE, GENETIC mutation

Abstract

Cbln1 and the orphan glutamate receptor GluRδ2 are pre- and postsynaptic components, respectively, of a novel transneuronal signaling pathway regulating synapse structure and function. We show here that Cbln1 is secreted from cerebellar granule cells in complex with a related protein, Cbln3. However, cbln1- and cbln3-null mice have different phenotypes and cbln1 cbln3 double-null mice have deficits identical to those of cbln1 knockout mice. The basis for these discordant phenotypes is that Cbln1 and Cbln3 reciprocally regulate each other's degradation and secretion such that cbln1-null mice lack both Cbln1 and Cbln3, whereas cbln3-null mice lack Cbln3 but have an approximately sixfold increase in Cbln1. Unlike Cbln1, Cbln3 cannot form homomeric complexes and is secreted only when bound to Cbln1. Structural modeling and mutation analysis reveal that, by constituting a steric clash that is masked upon binding Cbln1 in a "hide-and-run" mechanism of endoplasmic reticulum retention, a single arginine confers the unique properties of Cbln3. [ABSTRACT FROM AUTHOR]

Published

2006

156. The Ca 2+ binding protein, frequenin is a nervous system-specific protein in mouse preferentially localized in neurites

Author

Olafsson, Petur, Soares, Holly D, Herzog, Karl-Heinz, Wang, Ti, Morgan, James I, and Lu, Bai

Published

1997

157. The control of mitosis in mammalian tissues

Author

Morgan, James I.

Subjects

571.861, Pharmacy

Abstract

The question of which factors are central in determining whether a cell will undertake a new round of mitosis or will decycle has been examined in the isolated thymic lymphocyte model. Such cell populations possess both in vivo and in vitro a subpopulation of quiescent lymphoblasts which may be induced to reinitiate their mitotic programme. In the intact animal the major determinant of proliferative activity is the plasma ionised calcium concentration. However it has been established in culture that a variety of hormones, ions, cyclic nucleotides, plant lectins and ionophores may like calcium elicit a mitogenic response. These agents do not appear however to initiate DNA synthesis in an identical fashion. Rather there are two distinct intracellular mitogenic axes. The first axis includes a number of adenylate cyclase stimulants, cyclic AMP, phosphodiesterase inhibitors and magnesium ions. It was found that all these mitogens required extracellular magnesium ions to exhibit their stimulatory capacity. This dichotomy in mitogenic activity was further emphasised by the observation that these mitogens are all inhibited by testosterone, whilst the magnesium-independent mitogens were insensitive to this androgen. Indeed this second group of stimulatory factors required the presence of calcium ions in the extracellular milieu for activity, and were, in contrast to the magnesium-dependent mitogens inhibited by the presence of oestradiol in the culture. By examining the interrelationships between these various mitogens and inhibitors it has been possible to propose a mechanism to describe the activation process in the thymocyte. Studies of the metabolism of cyclic nucleotides, membrane potential and transmembrane ion fluxes indicate that there may be a complex relationship between membrane fluidity, ion balance and cyclic nucleotide levels which may individually or in concert promote the initiation of DNA synthesis. A number of possible mechanisms are discussed to account for these observations.

Published

1976

158. TTLL1 and TTLL4 polyglutamylases are required for the neurodegenerative phenotypes in pcd mice.

Author

Wu, Hui-Yuan, Rong, Yongqi, Bansal, Parmil K., Wei, Peng, Guo, Hong, and Morgan, James I.

Subjects

*PURKINJE cells, *CELL death, *PHOTORECEPTORS, *OLFACTORY bulb, *POST-translational modification, *CELL physiology

Abstract

Polyglutamylation is a dynamic posttranslational modification where glutamate residues are added to substrate proteins by 8 tubulin tyrosine ligase-like (TTLL) family members (writers) and removed by the 6 member Nna1/CCP family of carboxypeptidases (erasers). Genetic disruption of polyglutamylation leading to hyperglutamylation causes neurodegenerative phenotypes in humans and animal models; the best characterized being the Purkinje cell degeneration (pcd) mouse, a mutant of the gene encoding Nna1/CCP1, the prototypic eraser. Emphasizing the functional importance of the balance between glutamate addition and elimination, loss of TTLL1 prevents Purkinje cell degeneration in pcd. However, whether Ttll1 loss protects other vulnerable neurons in pcd, or if elimination of other TTLLs provides protection is largely unknown. Here using a mouse genetic rescue strategy, we characterized the contribution of Ttll1, 4, 5, 7, or 11 to the degenerative phenotypes in cerebellum, olfactory bulb and retinae of pcd mutants. Ttll1 deficiency attenuates Purkinje cell loss and function and reduces olfactory bulb mitral cell death and retinal photoreceptor degeneration. Moreover, degeneration of photoreceptors in pcd is preceded by impaired rhodopsin trafficking to the rod outer segment and likely represents the causal defect leading to degeneration as this too is rescued by elimination of TTLL1. Although TTLLs have similar catalytic properties on model substrates and several are highly expressed in Purkinje cells (e.g. TTLL5 and 7), besides TTLL1 only TTLL4 deficiency attenuated degeneration of Purkinje and mitral cells in pcd. Additionally, TTLL4 loss partially rescued photoreceptor degeneration and impaired rhodopsin trafficking. Despite their common properties, the polyglutamylation profile changes promoted by TTLL1 and TTLL4 deficiencies in pcd mice are very different. We also report that loss of anabolic TTLL5 synergizes with loss of catabolic Nna1/CCP1 to promote photoreceptor degeneration. Finally, male infertility in pcd is not rescued by loss of any Ttll. These data provide insight into the complexity of polyglutamate homeostasis and function in vivo and potential routes to ameliorate disorders caused by disrupted polyglutamylation. Author summary: Polyglutamylation is a process that modifies proteins with a degradable side chain of glutamate residues. The enzymes that catalyze the addition and removal of the side chain are tubulin tyrosine ligase like (TTLL) members and 6-member cytosolic carboxypeptidase (CCP) family, respectively. Mutations of Nna1/CCP1 cause severe neurodegeneration across species, including human, while the best characterized is the Purkinje cell degeneration (pcd) mouse, which exhibits progressive loss of cerebellar Purkinje cells, olfactory bulb mitral cells and retinal photoreceptors in addition to male infertility. Although Nna1 can metabolize products of multiple TTLLs in vitro, it remains largely unknown how these TTLLs contribute to the pcd phenotypes. To this end, we systematically examined whether null mutation of Ttll1, 4, 5, 7, or 11 can rescue the phenotypes of pcd mice. We showed that Ttll1 deficiency rescues Purkinje cell loss and function, and also preserves olfactory bulb mitral cells and retinal photoreceptors. Elimination of TTLL4, but not other TTLLs, spares Purkinje and mitral cells and partially rescues photoreceptor degeneration. However, only loss of Ttll1 but not Ttll4 corrected the excessive tubulin polyglutamylation in pcd cerebellum and loss of none of the Ttlls rescued male infertility. This study pointed to a potential therapeutic opportunity. [ABSTRACT FROM AUTHOR]

Published

2022

159. Cbln1 accumulates and colocalizes with Cbln3 and GluRδ2 at parallel fiber–Purkinje cell synapses in the mouse cerebellum.

Author

Miura, Eriko, Matsuda, Keiko, Morgan, James I., Yuzaki, Michisuke, and Watanabe, Masahiko

Subjects

*SYNAPSES, *NEURAL transmission, *CEREBELLUM, *CELLS, *IMMUNOHISTOCHEMISTRY, *MICE

Abstract

Cbln1 (a.k.a. precerebellin) is secreted from cerebellar granule cells as homohexamer or in heteromeric complexes with Cbln3. Cbln1 plays crucial roles in regulating morphological integrity of parallel fiber (PF)–Purkinje cell (PC) synapses and synaptic plasticity. Cbln1-knockout mice display severe cerebellar phenotypes that are essentially indistinguishable from those in glutamate receptor GluRδ2-null mice, and include severe reduction in the number of PF–PC synapses and loss of long-term depression of synaptic transmission. To understand better the relationship between Cbln1, Cbln3 and GluRδ2, we performed light and electron microscopic immunohistochemical analyses using highly specific antibodies and antigen-exposing methods, i.e. pepsin pretreatment for light microscopy and postembedding immunogold for electron microscopy. In conventional immunohistochemistry, Cbln1 was preferentially associated with non-terminal portions of PF axons in the molecular layer but rarely overlapped with Cbln3. In contrast, antigen-exposing methods not only greatly intensified Cbln1 immunoreactivity in the molecular layer, but also revealed its high accumulation in the synaptic cleft of PF–PC synapses. No such synaptic accumulation was evident at other PC synapses. Furthermore, Cbln1 now came to overlap almost completely with Cbln3 and GluRδ2 at PF–PC synapses. Therefore, the convergence of all three molecules provides the anatomical basis for a common signaling pathway regulating circuit development and synaptic plasticity in the cerebellum. [ABSTRACT FROM AUTHOR]

Published

2009

160. Expression of Bcl-2 extends the survival of olfactory receptor neurons in the absence of an olfactory bulb

Author

Hayward, Michael D., Bocchiaro, Christopher M., and Morgan, James I.

Subjects

*NERVOUS system, *TRANSGENIC animals, *TRANSGENIC mice, *SENSORY neurons

Abstract

Abstract: In the olfactory neuroepithelium, the number of olfactory receptor neurons (ORNs) is maintained at a relatively constant level by a precise balance between the elimination of mature receptors and proliferation of their precursors. However, little is known of the mechanisms that couple alterations in receptor death rates to changes in precursor proliferation. To investigate this relationship, we generated a line of mice expressing Bcl-2, a protein with anti-apoptotic properties, in mature olfactory receptor neurons using the Olfactory Marker Protein (OMP) promoter. OMP-bcl-2 transgenic mice showed selective expression of Bcl-2 in mature sensory neurons of the olfactory neuroepithelium (ONE) and vomeronasal organ. Olfactory bulbectomy (OBX) resulted in the death of mature receptor neurons followed by the sustained proliferation of their precursors in wild-type and OMP-bcl-2 transgenic mice. The persistently enhanced proliferation of olfactory neuroblasts that followed bulbectomy was indistinguishable between transgenic and non-transgenic mice. However, receptor neurons that were subsequently born in the absence of the bulb had longer life spans in OMP-bcl-2 mice. The increased proliferation of neuroblasts and extended life spans combined to restore near normal numbers of olfactory receptors in bulbectomized OMP-bcl-2 mice. A model is proposed to explain the dissociation of death and proliferation in OMP-bcl-2 transgenic mice. [Copyright &y& Elsevier]

Published

2004

161. Identification of candidate Purkinje cell-specific markers by gene expression profiling in wild-type and pcd3J mice

Author

Rong, Yongqi, Wang, Taiyu, and Morgan, James I.

Subjects

*NEURONS, *NERVOUS system, *GENE expression, *PERCEPTUAL-motor processes

Abstract

Abstract: The identification of mRNAs that have restricted expression patterns in the brain represents powerful tools with which to characterize and manipulate the nervous system. Here, we describe a strategy using microarray technology (Affymetrix Mouse Genome 430 2.0 Arrays) to identify mRNA transcripts that are candidate markers of cerebellar Purkinje neurons. Initially, gene expression profiles were compared between cerebella of 4-month-old Purkinje cell degeneration (pcd3J) mice, in which most Purkinje cells had already degenerated and wild-type littermates with a normal complement of Purkinje neurons. Of 14,563 probe sets expressed in wild-type cerebellum, 797 showed a significant (p<0.0001) reduction in pcd3J mice. These probes could represent transcripts with varying levels of specificity for Purkinje cells as well as transcripts in other cell types that decline as a secondary consequence of Purkinje cell loss. Ranking of the probe signals revealed that well-known Purkinje cell-specific transcripts such as calbindin and L7/pcp2 clustered in a group that was <33% of wild-type levels. Therefore, to identify potentially new Purkinje cell-specific transcripts that cluster with the known markers, more stringent selection criteria were applied (<33% of wild-type signal and p<0.0001). With these criteria, 55 independent transcripts were identified of which 33 were annotated genes and 22 were ESTs and RIKEN cDNAs. A literature search revealed that 25 of the 33 annotated genes were expressed in Purkinje cells, with no data being available on the other 8. Thus, the additional 8 annotated and 22 un-annotated genes are clustered with many genes expressed in Purkinje cells making them candidate markers. To confirm the microarray data, eight representative annotated genes were selected including five reported to be in Purkinje neurons and three for which no data was available. Semi-quantitative RT-PCR demonstrated reduced expression of all eight transcripts in cerebella from pcd3J mice. The promoters of genes expressed selectively in subsets of neurons can be used to direct heterologous gene expression in transgenic mice and the more restricted the expression pattern the greater their utility. Therefore, microarray analysis was used to assess expression levels of all 55 transcripts in cerebral cortex, striatum, substantia nigra and ventral tegmental area. This permitted the identification of a set of genes whose promoters might have utility for selectively targeting gene expression to cerebellar Purkinje cells. [Copyright &y& Elsevier]

Published

2004

162. Multilevel safety climate in the UK rail industry: A cross validation of the Zohar and Luria MSC scale.

Author

Curcuruto, Matteo, Griffin, Mark A., Kandola, Rajkiran, and Morgan, James I.

Subjects

*RAILROADS, *RAILROAD accidents, *RAILROAD crossings, *RAILROAD accident statistics, *INFRASTRUCTURE (Economics), *SAFETY

Abstract

Highlights • Safety climate is a recognized leading indicator of safety performance. • A validation of Zohar and Luria's MSC scale is provided for the rail industry. • EFA, CFA and nomological analyses are used to test the MSC factor structure. • Safety communication and monitoring factors are identified at team level. • The original OSC factor is negatively associated with self-report accident indices. Abstract Despite a downward trend in injury rates in UK workplaces, accident occurrence remains an on-going issue for the rail workforce. Results from the RSSB annual survey reveal that there were 164 major injuries in 2016/17. Safety climate is defined as "shared perceptions with regard to safety policies, procedures and practices." Many studies have examined the positive effects of safety climate on safety performances by individuals, teams, organizations. Despite widespread attempts to measure safety climate, the validity of measurement tools has not been systematically tested in the rail industry. The primary goal of our research was to validate Zohar and Luria's (2005) Multilevel Safety Climate Scale in a sample of rail infrastructure workers (N = 528). A cross-validation strategy was adopted. Half of the data were used to conduct exploratory factor analysis (EFA), with the remaining data submitted to confirmative factor analysis (CFA). The statistical results reveal a three-factor structure with organizational safety climate (OSC), supervisor safety communication (SSC), supervisor safety monitoring (SSM). A nomological analysis showed that SSC and SSM presented distinct correlation patterns with other measures of relevance for safety, risk and health management. SSM was found more strongly related with variables such as: safety priorities; safety systems; reporting attitudes; safety compliance. On the other hand, SSC was mainly related with measures refereed to distinct forms of organizational support: supervisor support; peer support; support to change. Overall, our findings showed the validity of a multidimensional approach on the study of safety climate and safety supervision in the rail industry. [ABSTRACT FROM AUTHOR]

Published

2018

163. Glycosylation of Cblns attenuates their receptor binding.

Author

Rong, Yongqi, Bansal, Parmil K., Wei, Peng, Guo, Hong, Correia, Kristen, Parris, Jennifer, and Morgan, James I.

Subjects

*GLYCOSYLATION, *GLYCOPROTEINS, *SYNAPSES, *IMMUNOBLOTTING, *CEREBELLUM physiology, *DITHIOTHREITOL, *POLYMERASE chain reaction

Abstract

Cbln1 is the prototype of a family (Cbln1-Cbln4) of secreted glycoproteins and is essential for normal synapse structure and function in cerebellum by bridging presynaptic Nrxn to postsynaptic Grid2. Here we report the effects of glycosylation on the in vitro receptor binding properties of Cblns. Cbln1, 2 and 4 harbor two N-linked glycosylation sites, one at the N-terminus is in a region implicated in Nrxn binding and the second is in the C1q domain, a region involved in Grid2 binding. Mutation (asparagine to glutamine) of the N-terminal site, increased neurexin binding whereas mutation of the C1q site markedly increased Grid2 binding. These mutations did not influence subunit composition of Cbln trimeric complexes (mediated through the C1q domain) nor their assembly into hexamers (mediated by the N-terminal region). Therefore, glycosylation likely masks the receptor binding interfaces of Cblns. As Cbln4 has undetectable Grid2 binding in vitro we assessed whether transgenic expression of wild type Cbln4 or its glycosylation mutants rescued the Cbln1-null phenotype in vivo . Cbln4 partially rescued and both glycosylation mutants completely rescued ataxia in cbln1-null mice. Thus Cbln4 has intrinsic Grid2 binding that is attenuated by glycosylation, and glycosylation mutants exhibit gain of function in vivo . [ABSTRACT FROM AUTHOR]

Published

2018

164. The cellular prion protein (PrP) selectively binds to Bcl-2 in the yeast two-hybrid system

Author

Kurschner, Cornelia and Morgan, James I.

Published

1995

165. 20 - Cellular Immediate-Early Genes in the Nervous System: Genes for All Reasons?

Author

CURRAN, TOM, HILBUSH, BRIAN S., and MORGAN, JAMES I.

Published

1994

166. Comparison of the Enzymatic and Functional Properties of Three Cytosolic Carboxypeptidase Family Members.

Author

Hui-Yuan Wu, Yongqi Rong, Correia, Kristen, Jaeki Min, and Morgan, James I.

Subjects

*CARBOXYPEPTIDASES, *TUBULINS, *BIOCHEMICAL substrates, *GENETIC mutation, *AMINO acids

Abstract

Nna1 (CCP1) defines a subfamily of M14 metallocarboxypeptidases (CCP1-6) and is mutated in pcd (Purkinje cell degeneration) mice. Nna1, CCP4, and CCP6 are involved in the post-translational process of polyglutamylation, where they catalyze the removal of polyglutamate side chains. However, it is unknown whether these three cytosolic carboxypeptidases share identical enzymatic properties and redundant biological functions. We show that like Nna1, purified recombinant CCP4 and CCP6 deglutamylate tubulin, but unlike Nna1, neither rescues Purkinje cell degeneration in pcd mice, indicating that they do not have identical functions. Using biotin-based synthetic substrates, we established that the three enzymes are distinguishable based upon individual preferences for glutamate chain length, the amino acid immediately adjacent to the glutamate chain, and whether their activity is enhanced by nearby acidic amino acids. Nna1 and CCP4 remove the C-terminal glutamate from substrates with two or more glutamates, whereas CCP6 requires four or more glutamates. CCP4 behaves as a promiscuous glutamase, with little preference for chain length or neighboring amino acid composition. Besides glutamate chain length dependence, Nna1 and CCP6 exhibit higher kcat/Km when substrates contain nearby acidic amino acids. All cytosolic carboxypeptidases exhibit a monoglutamase activity when aspartic acid precedes a single glutamate, which, together with their other individual preferences for flanking amino acids, greatly increases the potential substrates for these enzymes and the biological processes in which they act. Additionally, Nna1 metabolized substrates mimicking the C terminus of tubulin in a way suggesting that the tyrosinated form of tubulin will accumulate in pcd mice. [ABSTRACT FROM AUTHOR]

Published

2015

167. The Cbln family of proteins interact with multiple signaling pathways.

Author

Wei, Peng, Pattarini, Roberto, Rong, Yongqi, Guo, Hong, Bansal, Parmil K, Kusnoor, Sheila V, Deutch, Ariel Y, Parris, Jennifer, and Morgan, James I

Subjects

*PROTEIN precursors, *CEREBELLUM, *NETRINS, *NEUREXINS, *NEURONS, *COLON cancer, *LABORATORY mice

Abstract

J. Neurochem. (2012) 121, 717-729. Abstract Cerebellin precursor protein (Cbln1) is essential for synapse integrity in cerebellum through assembly into complexes that bridge pre-synaptic β-neurexins (Nrxn) to post-synaptic GluRδ2. However, GluRδ2 is largely cerebellum-specific, yet Cbln1 and its little studied family members, Cbln2 and Cbln4, are expressed throughout brain. Therefore, we investigated whether additional proteins mediate Cbln family actions. Whereas Cbln1 and Cbln2 bound to GluRδ2 and Nrxns1-3, Cbln4 bound weakly or not at all, suggesting it has distinct binding partners. In a candidate receptor-screening assay, Cbln4 (but not Cbln1 or Cbln2) bound selectively to the netrin receptor, (deleted in colorectal cancer (DCC) in a netrin-displaceable fashion. To determine whether Cbln4 had a netrin-like function, Cbln4-null mice were generated. Cbln4-null mice did not phenocopy netrin-null mice. Cbln1 and Cbln4 were likely co-localized in neurons thought to be responsible for synaptic changes in striatum of Cbln1-null mice. Furthermore, complexes containing Cbln1 and Cbln4 had greatly reduced affinity to DCC but increased affinity to Nrxns, suggesting a functional interaction. However, Cbln4-null mice lacked the striatal synaptic changes seen in Cbln null mice. Thus, Cbln family members interact with multiple receptors/signaling pathways in a subunit composition-dependent manner and have independent functions with Cbln4 potentially involved in the less well-characterized role of netrin/DCC in adult brain. [ABSTRACT FROM AUTHOR]

Published

2012

168. Comparison of Cbln1 and Cbln2 functions using transgenic and knockout mice.

Author

Rong, Yongqi, Wei, Peng, Parris, Jennifer, Guo, Hong, Pattarini, Roberto, Correia, Kristen, Li, Leyi, Kusnoor, Sheila V., Deutch, Ariel Y., and Morgan, James I.

Subjects

*PROTEINS, *CEREBELLUM, *GLYCOPROTEINS, *LABORATORY mice, *NEURONS

Abstract

J. Neurochem. (2012) 120, 528-540. Abstract Cerebellin precursor protein 1 (Cbln1) is the prototype of a family of secreted neuronal glycoproteins (Cbln1-4) and its genetic elimination results in synaptic alterations in cerebellum (CB) and striatum. In CB, Cbln1 acts as a bi-functional ligand bridging pre-synaptic β-neurexins on granule cells to post-synaptic Grid2 on Purkinje neurons. Although much is known concerning the action of Cbln1, little is known of the function of its other family members. Here, we show that Cbln1 and Cbln2 have similar binding activities to β-neurexins and Grid2 and the targeted ectopic expression of Cbln2 to Purkinje cells in transgenic mice rescues the cerebellar deficits in Cbln1-null animals: suggesting that the two proteins have redundant function mediated by their common receptor binding properties. Cbln1 and Cbln2 are also co-expressed in the endolysosomal compartment of the thalamic neurons responsible for the synaptic alterations in striatum of Cbln1-null mice. Therefore, to determine whether the two family members have similar functions, we generated Cbln2-null mice. Cbln2-null mice do not show the synaptic alterations evident in striatum of Cbln1-null mice. Thus, Cbln2 can exhibit functional redundancy with Cbln1 in CB but it does not have the same properties as Cbln1 in thalamic neurons, implying one or both utilize different receptors/mechanisms in this brain region. [ABSTRACT FROM AUTHOR]

Published

2012

169. Characterization of trans-neuronal trafficking of Cbln1

Author

Wei, Peng, Rong, Yongqi, Li, Leyi, Bao, Dashi, and Morgan, James I.

Subjects

*GLYCOPROTEINS, *TRANSGENIC mice, *PURKINJE cells, *NEURAL transmission

Abstract

Abstract: Cbln1, a glycoprotein secreted from granule cells and GluRδ2 in the postsynaptic densities of Purkinje cells are components of an incompletely understood pathway essential for integrity and plasticity of parallel fiber-Purkinje cell synapses. We show that Cbln1 undergoes anterograde transport from granule cells to Purkinje cells and Bergmann glia, and enters the endolysosomal trafficking system, raising the possibility that Cbln1 exerts its activity on or within Purkinje cells and Bergmann glia. Cbln1 is absent in Purkinje cells and Bergmann glia of GluRδ2-null mice, suggesting a mechanistic convergence on Cbln1 trafficking. Ectopic expression of Cbln1 in Purkinje cells of L7-cbln1 transgenic mice reveals Cbln1 undergoes anterograde and retrograde trans-neuronal trafficking even across synapses that lack GluRΔ2, indicating that it is not universally essential for Cbln1 transport. The L7-cbln1 transgene also ameliorates the locomotor deficits of cbln1-null mice, indicating that the presence and/or release of Cbln1 from the postsynaptic neuron has functional consequences. [Copyright &y& Elsevier]

Published

2009

170. Sensorimotor enhancement in mouse mutants lacking the Purkinje cell-specific Gi/o modulator, Pcp2(L7)

Author

Iscru, Emilia, Serinagaoglu, Yelda, Schilling, Karl, Tian, Jinbin, Bowers-Kidder, Stephanie L., Zhang, Rui, Morgan, James I., DeVries, A. Courtney, Nelson, Randy J., Zhu, Michael X., and Oberdick, John

Subjects

*SENSORIMOTOR integration, *LABORATORY mice, *PURKINJE cells, *PROTEINS, *CALCIUM channels, *ELECTROPHYSIOLOGY, *MOTOR learning

Abstract

Abstract: Pcp2(L7) is a GoLoco domain protein specifically and abundantly expressed in cerebellar Purkinje cells. It has been hypothesized to “tune” Gi/o-coupled receptor modulation of physiological effectors, including the P-type Ca2+ channel. We have analyzed a mouse mutant in which the Pcp2(L7) gene was inactivated and find significant anatomical, behavioral and electrophysiological changes. Anatomically, we observed mild cerebellar hypoplasia. Behaviorally, the mutants were altered in modalities atypical for a traditional cerebellar mutant, and oddly, all of these changes could be considered functional enhancements. This includes increased asymptotic performance in gross motor learning, increased rate of acquisition in tone-conditioned fear, and enhanced pre-pulse inhibition of the acoustic startle response. Electrophysiological analysis of Purkinje cells in the mutants reveals depression of the complex spike waveform that may underlie the behavioral changes. Based on these observations we suggest that the Pcp2(L7) protein acts as a sensorimotor damper that modulates time- and sense-dependent changes in motor responses. [Copyright &y& Elsevier]

Published

2009

171. Mapping of Cbln1-like immunoreactivity in adult and developing mouse brain and its localization to the endolysosomal compartment of neurons.

Author

Wei, Peng, Smeyne, Richard J., Bao, Dashi, Parris, Jennifer, and Morgan, James I.

Subjects

*LABORATORY mice, *BRAIN mapping, *TRANSGENIC mice, *GLYCOPROTEINS, *CEREBELLUM, *IMMUNOHISTOCHEMISTRY, *CYTOPLASM, *ENDOPLASMIC reticulum

Abstract

Cbln1 is a secreted glycoprotein essential for synapse structure and function in cerebellum that is also expressed in extracerebellar structures where its function is unknown. Furthermore, Cbln1 assembles into homomeric complexes and heteromeric complexes with three family members (Cbln2–Cbln4), thereby influencing each other's degradation and secretion. Therefore, to understand its function, it is essential to establish the location of Cbln1 relative to other family members. The localization of Cbln1 in brain was determined using immunohistochemistry and cbln1-lacZ transgenic mice. Cbln1-like immunoreactivity (CLI) was always punctate and localized to the cytoplasm of neurons. The punctate CLI colocalized with cathepsin D, a lysosomal marker, but not with markers of endoplasmic reticulum or Golgi, indicating that Cbln1 is present in neuronal endosomes/lysosomes. This may represent the cellular mechanism underlying the regulated degradation of Cbln1 observed in vivo. Outside the cerebellum, CLI mapped to multiple brain regions that were frequently synaptically interconnected, warranting their analysis in cbln1-null mice. Furthermore, whereas CLI increased dramatically in the cerebellum of cbln3-null mice it was unchanged in extracerebellar neurons. This opens the possibility that other family members that are coexpressed in these areas control Cbln1 levels, potentially by modulating processing in the endolysosomal pathway. During development of cbln1-lacZ mice, β-galactosidase staining was first observed in proliferating granule cell precursors prior to synaptogenesis and thereafter in maturing and adult granule cells. As cbln3 is only expressed in post-mitotic, post-migratory granule cells, Cbln1 homomeric complexes in precursors and Cbln1–Cbln3 heteromeric complexes in mature granule cells may have distinct functions and turnover. [ABSTRACT FROM AUTHOR]

Published

2007

172. The carboxypeptidase-like substrate-binding site in Nna1 is essential for the rescue of the Purkinje cell degeneration (pcd) phenotype

Author

Wang, Taiyu, Parris, Jennifer, Li, Leyi, and Morgan, James I.

Subjects

*CELLS, *NEURONS, *NERVES, *CELL death, *GENOTYPE-environment interaction

Abstract

Abstract: The Purkinje cell degeneration (pcd) phenotype is characterized by adult onset neurodegeneration resulting from mutations in Nna1, a gene encoding an intracellular protein with a putative metallocarboxypeptidase domain. As Nna1 is also induced in axotomized motor neurons, the elucidation of its function can shed light on previously unsuspected mechanisms common to degenerative and regenerative responses. Structural modeling revealed that Nna1 and three related gene products constitute a new subfamily of metallocarboxypeptidases with a distinctive substrate-binding site. To test whether the metallocarboxypeptidase domain is functionally essential, transgenic mice were generated that expressed Nna1 or a substrate-binding site mutant of Nna1 selectively in Purkinje cells using the L7/pcp2 promoter. When bred onto a homozygous pcd 3J background, wild type but not mutant Nna1 rescued ataxic behavior and Purkinje cell loss. Therefore, loss of Nna1 in Purkinje cells leads directly to their degeneration and Nna1''s carboxypeptidase domain is essential for survival of these neurons. [Copyright &y& Elsevier]

Published

2006

173. The influence of phosphorylation on the activity and structure of the neuronal IQ motif protein, PEP-19

Author

Dickerson, J. Bradley, Morgan, Marc A., Mishra, Ashutosh, Slaughter, Clive A., Morgan, James I., and Zheng, Jie

Subjects

*PHOSPHORYLATION, *PROTEIN kinases, *AMINO acids, *PROTEIN kinase C

Abstract

Abstract: PEP-19 is a 7.6 kDa neuronally expressed polypeptide that contains a single calmodulin-binding IQ motif. The calmodulin-binding activity of several neuronal IQ motif proteins is regulated by phosphorylation of a conserved serine. We propose that the serine residue within the IQ motif of PEP-19 is phosphorylated, and that phosphorylation modifies the activity of PEP-19. Camstatin, a functionally active 25-residue fragment of PEP-19''s IQ motif, binds calmodulin and inhibits neuronal nitric oxide synthase. A truncated camstatin–in which the IQ motif serine is the only phosphorylatable residue–was screened against 42 different kinases. Truncated camstatin is selectively phosphorylated by four isoforms of protein kinase C. Furthermore, treatment of full-length PEP-19 with PKCγ catalyzes phosphorylation of the same serine residue. Fluorescent anisotropy shows that phosphorylation of camstatin inhibits its binding to calmodulin. NMR solution structures indicate that both camstatin and phospho-camstatin exist in similar dynamic turn-like conformations. This suggests that camstatin''s greater affinity for calmodulin is due not to a change in the conformation of the phospho-peptide, but rather, to a disruption of hydrophobic interactions between phospho-camstatin and calmodulin caused by the presence of the hydrophilic phosphate group. The Hα chemical shifts and the circular dichroism spectra of the camstatins are consistent with those of “nascent helices”. We submit that PEP-19 is a PKC substrate, and that the phosphorylation state of PEP-19 may play a role in the modulation of calmodulin-dependent signaling. [Copyright &y& Elsevier]

Published

2006

174. Purkinje cell degeneration (pcd) Phenotypes Caused by Mutations in the Axotomy-Induced Gene, Nna1.

Author

Fernandez-Gonzales, Angeles, La Spada, Albert R., Treadaway, Jason, Higdon, Jason C., Harris, Belinda S., Sidman, Richard L., Morgan, James I., and Jian Zuo

Subjects

*PURKINJE cells, *DEGENERATION (Pathology)

Abstract

The classical recessive mouse mutant, Purkinje cell degeneration (pcd), exhibits adult-onset degeneration of cerebellar Purkinje neurons, retinal photoreceptors, olfactory bulb mitral neurons, and selected thalamic neurons, and has defective spermatogenesis. Here we identify Nna1 as the gene mutated in the original pcd and two additional pcd alleles (pcd[sup 2J] and pcd[sup 3J]). Nna1 encodes a putative nuclear protein containing a zinc carboxypeptidase domain initially identified by its induction in spinal motor neurons during axonal regeneration. The present study suggests an unexpected molecular link between neuronal degeneration and regeneration, and its results have potential implications for neurodegenerative diseases and male infertility. [ABSTRACT FROM AUTHOR]

Published

2002

175. Requirement for Atm in ionizing radiation-induced cell death in the devloping central nervous system.

Author

Herzog, Karl-Heinz, Chong, Miriam J., Kapsetaki, Manuela, Morgan, James I., and McKinnon, Peter J.

Subjects

*APOPTOSIS, *CENTRAL nervous system physiology, *GENETICS

Abstract

Presents research which observed resistance to apoptosis in the developing central nervous system (CNS) of mice after ionizing radiation. The ATM gene and ataxia telangiectasia (AT); Lack of cell death in regions of the CNS; Impact of up-regulation of p53; ATM-dependent apoptosis in the CNS mediated by p53; Traits of p53 null mice; ATM in development.

Published

1998

176. Interactional misalignment in the UK NHS 111 healthcare telephone triage service.

Author

Morgan JI and Muskett T

Subjects

Humans, Primary Health Care standards, Telephone statistics & numerical data, Triage methods, United Kingdom, Communication, Delivery of Health Care organization & administration, Health Services Accessibility standards, Health Services Needs and Demand standards, State Medicine standards, Telephone standards, Triage standards

Abstract

Background: A recent review of primary care serious incidents suggests that diagnosis and assessment problems, underpinned by communication failures, involving the UK telephone triage service, NHS 111, may contribute to patient harm., Methods: The present study utilised conversation analysis to address the lack of evaluative research examining the NHS 111 system and in particular interactions between system components (call handler, computerized decision support system, patients/caller)., Results: Analysis of audio recorded call interactions revealed interactional misalignment across four mapped call phases (eliciting caller details, establishing reason for call, completing the Pathways assessment, and agreeing the outcome). This misalignment has the capacity to increase the risk of system failure, particularly in relation to assessment problems and issues related to the accurate transfer of care advice. Our analysis suggests that efforts to enhance the NHS 111 system, similar telehealth services, and patient safety management more generally, should shift their focus from a limited set of individual components towards a system-specific interactionist perspective encompassing all elements., Conclusions: Further evaluative research is required in order to build a comprehensive evidence-base concerning the multiple interacting factors influencing patient safety in the NHS 111 system., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

177. Comparison of the enzymatic and functional properties of three cytosolic carboxypeptidase family members.

Author

Wu HY, Rong Y, Correia K, Min J, and Morgan JI

Subjects

Amino Acid Sequence, Animals, Carboxypeptidases chemistry, Carboxypeptidases metabolism, GTP-Binding Proteins metabolism, Mice, Mice, Transgenic, Nerve Degeneration pathology, Purkinje Cells metabolism, Purkinje Cells pathology, Serine-Type D-Ala-D-Ala Carboxypeptidase metabolism, Substrate Specificity, Tubulin metabolism, Carboxypeptidases genetics, GTP-Binding Proteins genetics, Nerve Degeneration metabolism, Polyglutamic Acid metabolism, Serine-Type D-Ala-D-Ala Carboxypeptidase genetics

Abstract

Nna1 (CCP1) defines a subfamily of M14 metallocarboxypeptidases (CCP1-6) and is mutated in pcd (Purkinje cell degeneration) mice. Nna1, CCP4, and CCP6 are involved in the post-translational process of polyglutamylation, where they catalyze the removal of polyglutamate side chains. However, it is unknown whether these three cytosolic carboxypeptidases share identical enzymatic properties and redundant biological functions. We show that like Nna1, purified recombinant CCP4 and CCP6 deglutamylate tubulin, but unlike Nna1, neither rescues Purkinje cell degeneration in pcd mice, indicating that they do not have identical functions. Using biotin-based synthetic substrates, we established that the three enzymes are distinguishable based upon individual preferences for glutamate chain length, the amino acid immediately adjacent to the glutamate chain, and whether their activity is enhanced by nearby acidic amino acids. Nna1 and CCP4 remove the C-terminal glutamate from substrates with two or more glutamates, whereas CCP6 requires four or more glutamates. CCP4 behaves as a promiscuous glutamase, with little preference for chain length or neighboring amino acid composition. Besides glutamate chain length dependence, Nna1 and CCP6 exhibit higher k(cat)/K(m) when substrates contain nearby acidic amino acids. All cytosolic carboxypeptidases exhibit a monoglutamase activity when aspartic acid precedes a single glutamate, which, together with their other individual preferences for flanking amino acids, greatly increases the potential substrates for these enzymes and the biological processes in which they act. Additionally, Nna1 metabolized substrates mimicking the C terminus of tubulin in a way suggesting that the tyrosinated form of tubulin will accumulate in pcd mice., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2015

178. Direct and indirect effects of mood on risk decision making in safety-critical workers.

Author

Morgan JI, Jones FA, and Harris PR

Subjects

Adolescent, Adult, Choice Behavior, Female, Humans, Male, Middle Aged, Personality Inventory, Psychological Tests, Railroads, Regression Analysis, Reproducibility of Results, United Kingdom, Affect, Decision Making, Risk-Taking, Safety Management

Abstract

The study aimed to examine the direct influence of specific moods (fatigue, anxiety, happiness) on risk in safety-critical decision making. It further aimed to explore indirect effects, specifically, the potential mediating effects of information processing assessed using a goodness-of-simulation task. Trait fatigue and anxiety were associated with an increase in risk taking on the Safety-Critical Personal Risk Inventory (S-CPRI), however the effect of fatigue was partialled out by anxiety. Trait happiness, in contrast was related to less risky decision making. Findings concerning the ability to simulate suggest that better simulators made less risky decisions. Anxious workers were generally less able to simulate. It is suggested that in this safety-critical environment happiness had a direct effect on risk decision making while the effect of trait anxiety was mediated by goodness-of-simulation., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

179. A structural and functional analysis of Nna1 in Purkinje cell degeneration (pcd) mice.

Author

Wu HY, Wang T, Li L, Correia K, and Morgan JI

Subjects

Adenosine Triphosphate metabolism, Amino Acid Sequence, Animals, Catalytic Domain, Chelating Agents pharmacology, GTP-Binding Proteins genetics, Gene Expression Regulation, Guanosine Triphosphate metabolism, HEK293 Cells, Humans, Mice, Mice, Inbred Strains, Mice, Transgenic, Molecular Sequence Data, Mutation, Neurons cytology, Neurons physiology, Protein Conformation, Purkinje Cells cytology, Purkinje Cells pathology, Serine-Type D-Ala-D-Ala Carboxypeptidase genetics, Structure-Activity Relationship, Tubulin chemistry, Tubulin metabolism, Zinc pharmacology, GTP-Binding Proteins chemistry, GTP-Binding Proteins metabolism, Purkinje Cells physiology, Serine-Type D-Ala-D-Ala Carboxypeptidase chemistry, Serine-Type D-Ala-D-Ala Carboxypeptidase metabolism

Abstract

The axotomy-inducible enzyme Nna1 defines a subfamily of M14 metallocarboxypeptidases, and its mutation underlies the Purkinje cell degeneration (pcd) mouse. However, the relationship among its catalytic activity, substrate specificities, and the critical processes of neurodegeneration/axon regeneration is incompletely understood. Here we used a transgenic rescue strategy targeting expression of modified forms of Nna1 to Purkinje cells in pcd mice to determine structure-activity relationships for neuronal survival and in parallel characterized the enzymatic properties of purified recombinant Nna1. The Nna1 subfamily uniquely shares conserved substrate-determining residues with aspartoacylase that, when mutated, cause Canavan disease. Homologous mutations (D1007E and R1078E) inactivate Nna1 in vivo, as does mutation of its catalytic glutamate (E1094A), which implies that metabolism of acidic substrates is essential for neuronal survival. Consistent with reports that Nna1 is a tubulin glutamylase, recombinant Nna1-but not the catalytic mutants-removes glutamate from tubulin. Recombinant Nna1 metabolizes synthetic substrates with 2 or more C-terminal glutamate (but not aspartate) residues (V(max) for 3 glutamates is ∼7-fold higher than 2 glutamates although K(M) is similar). Catalysis is not ATP/GTP dependent, and mutating the ATP/GTP binding site of Nna1 has no effect in vivo. Nna1 is a monomeric enzyme essential for neuronal survival through hydrolysis of polyglutamate-containing substrates.

Published

2012

180. Pcp4l1 contains an auto-inhibitory element that prevents its IQ motif from binding to calmodulin.

Author

Morgan MA and Morgan JI

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Blotting, Western, Mice, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Binding, Reverse Transcriptase Polymerase Chain Reaction, Sequence Alignment, Transfection, Two-Hybrid System Techniques, Calmodulin metabolism, Calmodulin-Binding Proteins chemistry, Calmodulin-Binding Proteins metabolism, Nerve Tissue Proteins chemistry, Nerve Tissue Proteins metabolism

Abstract

Purkinje cell protein 4-like 1 (Pcp4l1) is a small neuronal IQ motif protein closely related to the calmodulin-binding protein Pcp4/PEP-19. PEP-19 interacts with calmodulin via its IQ motif to inhibit calmodulin-dependent enzymes and we hypothesized Pcp4l1 would have similar properties. Surprisingly, full-length Pcp4l1 does not interact with calmodulin in yeast two-hybrid or pulldown experiments yet a synthetic peptide constituting only the IQ motif of Pcp4l1 binds calmodulin and inhibits calmodulin-dependent kinase II. A nine-residue glutamic acid-rich sequence in Pcp4l1 confers these unexpected properties. This element lies outside the IQ motif and its deletion or exchange with the homologous region of PEP-19 restores calmodulin binding. Conversion of a single isoleucine (Ile36) within this motif to phenylalanine, the residue present in PEP-19, imparts calmodulin binding onto Pcp4l1. Moreover, only aromatic amino acid substitutions at position 36 in Pcp4l1 allow binding. Thus, despite their sequence similarities PEP-19 and Pcp4l1 have distinct properties with the latter harboring an element that can functionally suppress an IQ motif. We speculate Pcp4l1 may be a latent calmodulin inhibitor regulated by post-translational modification and/or co-factor interactions., (© 2012 The Authors. Journal of Neurochemistry © 2012 International Society for Neurochemistry.)

Published

2012

181. Sensorimotor enhancement in mouse mutants lacking the Purkinje cell-specific Gi/o modulator, Pcp2(L7).

Author

Iscru E, Serinagaoglu Y, Schilling K, Tian J, Bowers-Kidder SL, Zhang R, Morgan JI, DeVries AC, Nelson RJ, Zhu MX, and Oberdick J

Subjects

Action Potentials physiology, Animals, Behavior, Animal physiology, Cerebellum abnormalities, Cerebellum metabolism, Female, GTP-Binding Protein alpha Subunits, Gi-Go genetics, Gene Silencing, Guanine Nucleotide Exchange Factors genetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Motor Activity physiology, Neuropeptides genetics, Purkinje Cells cytology, Cerebellum cytology, GTP-Binding Protein alpha Subunits, Gi-Go metabolism, Guanine Nucleotide Exchange Factors metabolism, Neuropeptides metabolism, Purkinje Cells metabolism

Abstract

Pcp2(L7) is a GoLoco domain protein specifically and abundantly expressed in cerebellar Purkinje cells. It has been hypothesized to "tune" G(i/o)-coupled receptor modulation of physiological effectors, including the P-type Ca(2+) channel. We have analyzed a mouse mutant in which the Pcp2(L7) gene was inactivated and find significant anatomical, behavioral and electrophysiological changes. Anatomically, we observed mild cerebellar hypoplasia. Behaviorally, the mutants were altered in modalities atypical for a traditional cerebellar mutant, and oddly, all of these changes could be considered functional enhancements. This includes increased asymptotic performance in gross motor learning, increased rate of acquisition in tone-conditioned fear, and enhanced pre-pulse inhibition of the acoustic startle response. Electrophysiological analysis of Purkinje cells in the mutants reveals depression of the complex spike waveform that may underlie the behavioral changes. Based on these observations we suggest that the Pcp2(L7) protein acts as a sensorimotor damper that modulates time- and sense-dependent changes in motor responses.

Published

2009

182. The Purkinje cell degeneration (pcd) mouse: an unexpected molecular link between neuronal degeneration and regeneration.

Author

Wang T and Morgan JI

Subjects

Animals, Cerebellum cytology, GTP-Binding Proteins physiology, Mice, Mice, Neurologic Mutants anatomy & histology, Mice, Neurologic Mutants physiology, Mutation, Purkinje Cells cytology, Serine-Type D-Ala-D-Ala Carboxypeptidase physiology, GTP-Binding Proteins genetics, Nerve Degeneration genetics, Nerve Degeneration physiopathology, Purkinje Cells physiology, Regeneration physiology, Serine-Type D-Ala-D-Ala Carboxypeptidase genetics

Abstract

The spontaneous autosomal recessive mouse mutation, Purkinje cell degeneration (pcd), was first identified through its ataxic behavior. Since its discovery in the 1970s, the strain has undergone extensive investigation, although another quarter century elapsed until the mutant gene (agtpbp1 a.k.a. Nna1) underlying the pcd phenotype was identified. As Nna1 was initially discovered as a gene induced in motor neurons following axotomy the finding that its loss leads to selective neuronal degeneration points to a novel and unexpected common molecular mechanism contributing to the apparently opposing processes of degeneration and regeneration. The elucidation of this mechanism may of course have significant implications for an array of neurological disorders. Here we will first review the principle features of the pcd phenotype and then discuss the functional implications of more recent findings emanating from the characterization of Nna1, the protein that is lost in pcd. We also provide new data on the genetic dissection of the cell death pathways operative in pcd(3J) mice, proving that granule cell death and Purkinje cell death in these mice have distinct molecular bases. We also provide new information on the structure of mouse Nna1 as well as Nna1 protein levels in pcd(3J) mice.

Published

2007

183. The structure and proteolytic processing of Cbln1 complexes.

Author

Bao D, Pang Z, and Morgan JI

Subjects

Amino Acid Sequence, Animals, COS Cells, Cerebellum cytology, Chlorocebus aethiops, Conserved Sequence, Humans, Kidney cytology, Mice, Molecular Sequence Data, Nerve Tissue Proteins chemistry, Neurons cytology, Protein Precursors chemistry, Protein Structure, Tertiary, Two-Hybrid System Techniques, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurons physiology, Protein Precursors genetics, Protein Precursors metabolism

Abstract

The hexadecapeptide cerebellin is present in the brains of many vertebrate species and is derived from a larger protein, Cbln1 (cerebellin 1 precursor protein). Although cerebellin has features of a neuropeptide, Cbln1 belongs to the C1q/tumor necrosis factor superfamily of secreted proteins, suggesting that it is the biologically active molecule and the proteolytic events that generate cerebellin serve another function. Therefore, we assessed whether Cbln1 undergoes proteolytic processing and determined what consequences the cleavage events necessary to produce cerebellin have on the structure of Cbln1. Substantial degradation of Cbln1 was evident in the synaptic compartment of cerebellum and lysates of cultured cerebellar neurons and cells transfected with Cbln1 expression vectors. However, only uncleaved Cbln1 containing the cerebellin motif was released and assembled into hexameric complexes. Using yeast two hybrid and mammalian expression systems we show that the cleavages required to produce cerebellin influence the subunit stoichiometry of Cbln1 complexes. Cleavage at the N-terminus of the cerebellin sequence in Cbln1 yields trimeric complexes by separating the trimer-mediating C-terminal C1q domain from conserved N-terminal cysteine residues that mediate higher order oligomerization. Cleavage at the C-terminus of the cerebellin motif disrupts the C1q domain and abolishes subunit interactions. Functional implications of these data are discussed.

Published

2005

184. Identification of candidate Purkinje cell-specific markers by gene expression profiling in wild-type and pcd(3J) mice.

Author

Rong Y, Wang T, and Morgan JI

Subjects

Animals, Cerebellum pathology, Cerebellum physiology, Genes, Recessive, Genetic Markers, Genotype, Heredodegenerative Disorders, Nervous System pathology, Mice, Mice, Neurologic Mutants, Purkinje Cells pathology, Reverse Transcriptase Polymerase Chain Reaction, Heredodegenerative Disorders, Nervous System genetics, Oligonucleotide Array Sequence Analysis, Purkinje Cells physiology

Abstract

The identification of mRNAs that have restricted expression patterns in the brain represents powerful tools with which to characterize and manipulate the nervous system. Here, we describe a strategy using microarray technology (Affymetrix Mouse Genome 430 2.0 Arrays) to identify mRNA transcripts that are candidate markers of cerebellar Purkinje neurons. Initially, gene expression profiles were compared between cerebella of 4-month-old Purkinje cell degeneration (pcd(3J)) mice, in which most Purkinje cells had already degenerated and wild-type littermates with a normal complement of Purkinje neurons. Of 14,563 probe sets expressed in wild-type cerebellum, 797 showed a significant (p<0.0001) reduction in pcd(3J) mice. These probes could represent transcripts with varying levels of specificity for Purkinje cells as well as transcripts in other cell types that decline as a secondary consequence of Purkinje cell loss. Ranking of the probe signals revealed that well-known Purkinje cell-specific transcripts such as calbindin and L7/pcp2 clustered in a group that was <33% of wild-type levels. Therefore, to identify potentially new Purkinje cell-specific transcripts that cluster with the known markers, more stringent selection criteria were applied (<33% of wild-type signal and p<0.0001). With these criteria, 55 independent transcripts were identified of which 33 were annotated genes and 22 were ESTs and RIKEN cDNAs. A literature search revealed that 25 of the 33 annotated genes were expressed in Purkinje cells, with no data being available on the other 8. Thus, the additional 8 annotated and 22 un-annotated genes are clustered with many genes expressed in Purkinje cells making them candidate markers. To confirm the microarray data, eight representative annotated genes were selected including five reported to be in Purkinje neurons and three for which no data was available. Semi-quantitative RT-PCR demonstrated reduced expression of all eight transcripts in cerebella from pcd(3J) mice. The promoters of genes expressed selectively in subsets of neurons can be used to direct heterologous gene expression in transgenic mice and the more restricted the expression pattern the greater their utility. Therefore, microarray analysis was used to assess expression levels of all 55 transcripts in cerebral cortex, striatum, substantia nigra and ventral tegmental area. This permitted the identification of a set of genes whose promoters might have utility for selectively targeting gene expression to cerebellar Purkinje cells.

Published

2004

185. Mouse embryos cloned from brain tumors.

Author

Li L, Connelly MC, Wetmore C, Curran T, and Morgan JI

Subjects

Animals, Brain Neoplasms pathology, Brain Neoplasms ultrastructure, Cell Transformation, Neoplastic genetics, Female, Medulloblastoma pathology, Medulloblastoma ultrastructure, Mice, Polymerase Chain Reaction, Blastocyst physiology, Blastomeres physiology, Brain Neoplasms genetics, Medulloblastoma genetics, Nuclear Transfer Techniques

Abstract

Cancer cells escape from growth control by accumulating genetic and epigenetic alterations. In rare instances, epigenetic changes alone are oncogenic. Furthermore, agents that modify DNA methylation or chromatin structure can restore a normal phenotype to cells harboring oncogenic mutations. However, it is unclear to what extent epigenetic reprogramming can reverse oncogenesis. Using somatic nuclear transfer, we show that medulloblastomas arising in Ptc1+/- mice can direct preimplantation development. Additionally, blastocysts derived from medulloblastoma nuclei form postimplantation embryos with typical cell layers. Thus, tumor cells can be epigenetically reprogrammed into normal cell types. This approach could lead to a general strategy for assessing genetic and epigenetic contributions to tumorigenesis.

Published

2003

186. Differential post-transcriptional regulation of p21WAF1/Cip1 levels in the developing nervous system following gamma-irradiation.

Author

Herzog KH, Braun JS, Han SH, and Morgan JI

Subjects

Animals, Animals, Newborn, Cell Death genetics, Cell Division genetics, Cell Division radiation effects, Cell Survival genetics, Cell Survival radiation effects, Central Nervous System growth & development, Central Nervous System metabolism, Cerebellum growth & development, Cerebellum metabolism, Cerebellum radiation effects, Cyclin-Dependent Kinase Inhibitor p21, Cyclins metabolism, Female, Gene Expression Regulation, Developmental physiology, Male, Mice, Mice, Knockout, Neurons metabolism, Neurons pathology, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins radiation effects, Retina growth & development, Retina metabolism, Retina radiation effects, Transcription, Genetic physiology, Tumor Suppressor Protein p53 deficiency, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 radiation effects, bcl-2-Associated X Protein, Cell Death radiation effects, Central Nervous System radiation effects, Cyclins radiation effects, Gene Expression Regulation, Developmental radiation effects, Neurons radiation effects, Proto-Oncogene Proteins c-bcl-2, Transcription, Genetic radiation effects

Abstract

Radiation-induced death in the developing brain is p53-dependent. However, genetic studies indicate that the signalling pathways that couple irradiation to p53 expression can vary between different developing neural populations [Herzog et al. (1998) Science, 280, 1089-1091]. Here we establish that signalling downstream of p53 also exhibits brain region-specific differences that are associated with the relative vulnerability of some cell populations to radiation-induced killing in the mouse. Following gamma-irradiation, p53 and p21WAF1/cip1, but not Bax, protein levels increased in the developing cerebellum. In contrast, neither p21WAF1/cip1 nor Bax protein levels were elevated in the retina following irradiation, despite increased p53 expression. In the retina, p53 expression was associated with cells destined to die, whereas in the cerebellum, p53 was expressed in both radiation-sensitive and radiation-resistant neuroblasts of the external granule cell layer. Although p21WAF1/cip1 mRNA was expressed in all p53-positive neuroblasts after irradiation, p21WAF1/cip1 protein was only detected in radiation-resistant neuroblasts of the cerebellum. Thus, p21WAF1/cip1 was subject to post-transcriptional regulation with p21WAF1/cip1 protein only accumulating in cells destined to survive irradiation. Nevertheless, p21WAF1/cip1 function was not essential for radiation resistance, as postmitotic neuroblasts in the external granule cell layer were spared in p21WAF1/cip1 knockout mice.

Published

2002