Margarita Rzhetskaya

Publications (9)44.36 Total impact

• Article: Akt suppresses retrograde degeneration of dopaminergic axons by inhibition of macroautophagy.

  Hsiao-Chun Cheng, Sang Ryong Kim, Tinmarla F Oo, Tatyana Kareva, Olga Yarygina, Margarita Rzhetskaya, Chuansong Wang, Matthew During, Zsolt Talloczy, Keiji Tanaka, Masaaki Komatsu, Kazuto Kobayashi, Hideyuki Okano, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: Axon degeneration is a hallmark of neurodegenerative diseases, including Alzheimer's disease and Parkinson's disease. Such degeneration is not a passive event but rather an active process mediated by mechanisms that are distinct from the canonical pathways of programmed cell death that mediate destruction of the cell soma. Little is known of the diverse mechanisms involved, particularly those of retrograde axon degeneration. We have previously observed in living animal models of degeneration in the nigrostriatal projection that a constitutively active form of the kinase, myristoylated Akt (Myr-Akt), demonstrates an ability to suppress programmed cell death and preserve the soma of dopamine neurons. Here, we show in both neurotoxin and physical injury (axotomy) models that Myr-Akt is also able to preserve dopaminergic axons due to suppression of acute retrograde axon degeneration. This cellular phenotype is associated with increased mammalian target of rapamycin (mTor) activity and can be recapitulated by a constitutively active form of the small GTPase Rheb, an upstream activator of mTor. Axon degeneration in these models is accompanied by the occurrence of macroautophagy, which is suppressed by Myr-Akt. Conditional deletion of the essential autophagy mediator Atg7 in adult mice also achieves striking axon protection in these acute models of retrograde degeneration. The protection afforded by both Myr-Akt and Atg7 deletion is robust and lasting, because it is still observed as protection of both axons and dopaminergic striatal innervation weeks after injury. We conclude that acute retrograde axon degeneration is regulated by Akt/Rheb/mTor signaling pathways.
  Journal of Neuroscience 02/2011; 31(6):2125-35. · 7.11 Impact Factor
• Article: WITHDRAWN: Analysis of synphilin-1 and synuclein interactions by yeast two-hybrid β-galactosidase liquid assay.

  Michael Neystat, Margarita Rzhetskaya, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: The publisher regrets that this article is an accidental duplication of an article that has already been published, doi:10.1016/S0304-3940(02)00253-7. The duplicate article has therefore been withdrawn.
  Neuroscience Letters 01/2011; · 2.11 Impact Factor
• Article: Regulation of the postnatal development of dopamine neurons of the substantia nigra in vivo by Akt/protein kinase B.

  Vincent Ries, Hsiao-Chun Cheng, Amy Baohan, Tatyana Kareva, Tinmarla F Oo, Margarita Rzhetskaya, Ross J Bland, Matthew J During, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: Following mitosis, specification and migration during embryogenesis, dopamine neurons of the mesencephalon undergo a postnatal naturally occurring cell death event that determines their final adult number, and a period of axonal growth that determines pattern and extent of target contacts. While a number of neurotrophic factors have been suggested to regulate these developmental events, little is known, especially in vivo, of the cell signaling pathways that mediate these effects. We have examined the possible role of Akt/Protein Kinase B by transduction of these neurons in vivo with adeno-associated viral vectors to express either a constitutively active or a dominant negative form of Akt/protein kinase B. We find that Akt regulates multiple features of the postnatal development of these neurons, including the magnitude of the apoptotic developmental cell death event, neuron size, and the extent of target innervation of the striatum. Given the diversity and magnitude of its effects, the regulation of the development of these neurons by Akt may have implications for the many psychiatric and neurologic diseases in which these neurons may play a role.
  Journal of Neurochemistry 05/2009; 110(1):23-33. · 4.06 Impact Factor
• Article: JNK2 and JNK3 combined are essential for apoptosis in dopamine neurons of the substantia nigra, but are not required for axon degeneration.

  Vincent Ries, Robert M Silva, Tinmarla F Oo, Hsiao-Chun Cheng, Margarita Rzhetskaya, Nikolai Kholodilov, Richard A Flavell, Chia-Yi Kuan, Pasko Rakic, Robert E Burke
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  ABSTRACT: Activation of c-jun N-terminal kinase (JNK) by the mitogen-activated protein kinase cascade has been shown to play an important role in the death of dopamine neurons of the substantia nigra, one of the principal neuronal populations affected in Parkinson's disease. However, it has remained unknown whether the JNK2 and JNK3 isoforms, either singly or in combination, are essential for apoptotic death, and, if so, the mechanisms involved. In addition, it has been unclear whether they play a role in axonal degeneration of these neurons in disease models. To address these issues we have examined the effect of single and double jnk2 and jnk3 null mutations on apoptosis in a highly destructive neurotoxin model, that induced by intrastriatal 6-hydroxydopamine. We find that homozygous jnk2/3 double null mutations result in a complete abrogation of apoptosis and a prolonged survival of the entire population of dopamine neurons. In spite of this complete protection at the cell soma level, there was no protection of axons. These studies provide a striking demonstration of the distinctiveness of the mechanisms that mediate cell soma and axon degeneration, and they illustrate the need to identify and target pathways of axon degeneration in the development of neuroprotective therapeutics.
  Journal of Neurochemistry 12/2008; 107(6):1578-88. · 4.06 Impact Factor
• Article: Antiapoptotic and trophic effects of dominant-negative forms of dual leucine zipper kinase in dopamine neurons of the substantia nigra in vivo.

  Xiqun Chen, Margarita Rzhetskaya, Tatyana Kareva, Ross Bland, Matthew J During, A William Tank, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: There is extensive evidence that the mitogen-activated protein kinase (MAPK) signaling cascade mediates programmed cell death in neurons. However, current evidence that the mixed linage kinases (MLKs), upstream in this cascade, mediate cell death is based, in the in vivo context, entirely on pharmacological approaches. The compounds used in these studies have neither complete specificity nor selectivity among these kinases. Therefore, to better address the molecular specificity of the MLKs in mediating neuron death, we used dominant-negative constructs delivered by AAV (adenoassociated virus) vector transfer. We assessed effects in a neurotoxin model of parkinsonism, in which neuroprotection by pharmacologic MLK inhibition has been reported. We find that two dominant-negative forms of dual leucine zipper kinase (DLK) inhibit apoptosis and enhance long-term survival of dopamine neurons, but a dominant negative of MLK3 does not. Interestingly, the kinase-dead form of DLK not only blocks apoptosis but also has trophic effects on dopamine neurons. Although the MAPK cascade activates a number of downstream cell death mediators, we find that inhibition of DLK correlates closely with blockade of phosphorylation of c-jun and prevention of cell death. We conclude that DLK acts primarily through c-jun phosphorylation to mediate cell death in this model.
  Journal of Neuroscience 02/2008; 28(3):672-80. · 7.11 Impact Factor
• Source

  Available from: pnas.org

  Article: Oncoprotein Akt/PKB induces trophic effects in murine models of Parkinson's disease.

  Vincent Ries, Claire Henchcliffe, Tatyana Kareva, Margarita Rzhetskaya, Ross Bland, Matthew J During, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: Despite promising preclinical studies, neurotrophic factors have not yet achieved an established role in the treatment of human neurodegenerative diseases. One impediment has been the difficulty in providing these macromolecules in sufficient quantity and duration at affected sites. An alternative approach is to directly activate, by viral vector transduction, intracellular signaling pathways that mediate neurotrophic effects. We have evaluated this approach in dopamine neurons of the substantia nigra, neurons affected in Parkinson's disease, by adeno-associated virus 1 transduction with a gene encoding a myristoylated, constitutively active form of the oncoprotein Akt/PKB. Adeno-associated virus Myr-Akt has pronounced trophic effects on dopamine neurons of adult and aged mice, including increases in neuron size, phenotypic markers, and sprouting. Transduction confers almost complete protection against apoptotic cell death in a highly destructive neurotoxin model. Activation of intracellular neurotrophic signaling pathways by vector transfer is a feasible approach to neuroprotection and restorative treatment of neurodegenerative disease.
  Proceedings of the National Academy of Sciences 01/2007; 103(49):18757-62. · 9.68 Impact Factor
• Source

  Available from: columbiaburkelab.org

  Article: CEP11004, a novel inhibitor of the mixed lineage kinases, suppresses apoptotic death in dopamine neurons of the substantia nigra induced by 6-hydroxydopamine.

  Anindita Ganguly, Tinmarla Frances Oo, Margarita Rzhetskaya, Robert Pratt, Olga Yarygina, Takashi Momoi, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: There is much evidence that the kinase cascade which leads to the phosphorylation of c-jun plays an important signaling role in the mediation of programmed cell death. We have previously shown that c-jun is phosphorylated in a model of induced apoptotic death in dopamine neurons of the substantia nigra in vivo. To determine the generality and functional significance of this response, we have examined c-jun phosphorylation and the effect on cell death of a novel mixed lineage kinase inhibitor, CEP11004, in the 6-hydroxydopamine model of induced apoptotic death in dopamine neurons. We found that expression of total c-jun and Ser73-phosphorylated c-jun is increased in this model and both colocalize with apoptotic morphology. CEP11004 suppresses apoptotic death to levels of 44 and 58% of control values at doses of 1.0 and 3.0 mg/kg, respectively. It also suppresses, to approximately equal levels, the number of profiles positive for the activated form of capase 9. CEP11004 markedly suppresses striatal dopaminergic fiber loss in these models, to only 22% of control levels. We conclude that c-jun phosphorylation is a general feature of apoptosis in living dopamine neurons and that the mixed lineage kinases play a functional role as up-stream mediators of cell death in these neurons.
  Journal of Neurochemistry 02/2004; 88(2):469-80. · 4.06 Impact Factor
• Article: Analysis of synphilin-1 and synuclein interactions by yeast two-hybrid beta-galactosidase liquid assay.

  Michael Neystat, Margarita Rzhetskaya, Nikolai Kholodilov, Robert E Burke
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  ABSTRACT: Synphilin-1 interacts with alpha-synuclein, which has been implicated in the pathogenesis of Parkinson's disease (PD). By examination of their interactions quantitatively, with the use of the yeast two-hybrid beta-galactosidase assay, we find that the synuclein amino acid (aa) 1-65 region is sufficient for an interaction. A central domain of synphilin-1, aa 349-555, is both necessary and sufficient for an interaction with alpha-synuclein. We did not observe an effect of the synuclein A53T mutation, which causes one familial form of PD, on interactions with synphilin-1. However, the A30P mutation caused an increase in the interaction between the synuclein aa 1-65 fragment and the synphilin-1 central domain.
  Neuroscience Letters 07/2002; 325(2):119-23. · 2.11 Impact Factor
• Article: Expression of cyclin‐dependent kinase 5 and its activator p35 in models of induced apoptotic death in neurons of the substantia nigra in vivo

  Michael Neystat, Margarita Rzhetskaya, Tinmarla F. Oo, Nikolai Kholodilov, Olga Yarygina, Alexandria Wilson, Bassem F. El-Khodor, Robert E. Burke
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  ABSTRACT: Cyclin-dependent kinase 5 is predominantly expressed in postmitotic neurons and plays a role in neurite elongation during development. It has also been postulated to play a role in apoptosis in a variety of cells, including neurons, but little is known about the generality and functional significance of cdk5 expression in neuronal apoptosis in living brain. We have therefore examined its expression and that of its known activators, p35, p39 and p67, in models of induced apoptosis in neurons of the substantia nigra. We find that cdk5 is expressed in apoptotic profiles following intrastriatal injection of 6-hydroxydopamine and axotomy. It is expressed exclusively in profiles which are in late morphologic stages of apoptosis. In these late stages, derivation of the profiles from neurons, and localization of expression to the nucleus, can be demonstrated by co-labeling with a neuron-specific nuclear marker, NeuN. In another model of induced apoptotic death in nigra, produced by developmental striatal lesion, kinase activity increases in parallel with cell death. While mRNAs for all three cdk5 activators are expressed in nigra during development, only p35 protein is expressed in apoptotic profiles. We conclude that cdk5/p35 expression is a general feature of apoptotic neuron death in substantia nigra neurons in vivo.
  Journal of Neurochemistry 06/2001; 77(6):1611 - 1625. · 4.06 Impact Factor