Zuoshang Xu MD, PHD
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Title Professor
Institution University of Massachusetts Medical School
Department Biochemistry & Molecular Pharmacology
Address University of Massachusetts Medical School
 364 Plantation Street, LRB
 Worcester MA 01605
Telephone 508-856-3309
Email
Other Positions
Institution UMMS - School of Medicine
Department Cell Biology

Institution UMMS - Graduate School of Biomedical Sciences
Department Biochemistry & Molecular Pharmacology

Institution UMMS - Graduate School of Biomedical Sciences
Department Cell Biology

Institution UMMS - Graduate School of Biomedical Sciences
Department Interdisciplinary Graduate Program

Institution UMMS - Graduate School of Biomedical Sciences
Department Neuroscience

Institution UMMS - Programs, Centers and Institutes
Department Center for AIDS Research

Institution UMMS - Programs, Centers and Institutes
Department Program in Cell Dynamics

Institution UMMS - Programs, Centers and Institutes
Department RNA Therapeutics Institute
Narrative

Mechanism and therapy of neurodegenerative diseases

Zoushang Xu, Ph.D.My laboratory is working to understand the mechanism of neurodegeneration in neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS) and frontal temporal dementia (FTD).  ALS causes motor neuron degeneration, paralysis and death.  FTD causes neurodegeneration in frontal and temporal cortex, resulting in degeneration of high brain functions, including altered personality, loss of executive ability, disabled social functions and regressive language skills.  ALS and FTD are related because sometimes both diseases occur in the same patients and they share some cellular pathological features.   We study these diseases by generating and analyzing animal models for these diseases.  We are also developing RNAi therapy for these diseases.

We generate and use two types of animal models.  One is gene overexpression models and the other is gene knockdown models.  One overexpression model that we study is mice that express mutant human copper, zinc superoxide dismutase (SOD1) gene, which causes ALS.  These mice develop ALS symptoms similar to humans.  We hypothesize that mitochondrial damage and chaperone dysfunction contributes to motor neuron degeneration caused by mutant SOD1.  Our experimental data support this hypothesis (Xu et al., 2004; Tummala et al., 2005).  In addition to these mechanistic studies, we also use these mice to test new RNAi therapy strategies (Ding et al., 2003; Schwarz et al., 2006; Xia et al., 2006a).

For gene knockdown models, we use transgenic RNAi method that we have developed.  We have demonstrated that transgenic RNAi knockdown of specific genes can recapitulate gene knockout phenotypes (Xia et al., 2006b).  We have used transgenic RNAi to demonstrate that allele-specific silencing works in vivo (Xia et al., 2006a).  Recently we have developed more sophisticated conditional knockdown strategies so that gene knockdown can be controlled spatially and temporally.  We are using this transgenic RNAi strategy to target genes that are involved in ALS, FTD and Alzhermer’s disease.

In developing RNAi therapy strategies, we are testing two approaches.  One is to express RNAi using viral vectors to silence disease genes.  The other approach is being conducted in collaboration with Dr. Tariq Rana’s lab.  We are testing delivering RNAi therapy using chemically modified siRNA that has enhanced stability.  By these approaches, we hope that we will bring RNAi to clinical application for treatment of neurodegenerative diseases as well as other CNS disorders.

 
Publications
1. Zhang H, Yang B, Mu X, Ahmed SS, Su Q, He R, Wang H, Mueller C, Sena-Esteves M, Brown R, Xu Z, Gao G. Several rAAV Vectors Efficiently Cross the Blood-brain Barrier and Transduce Neurons and Astrocytes in the Neonatal Mouse Central Nervous System. Mol Ther. 2011 Aug; 19(8):1440-8.
  View in: PubMed
 
2. Qiu L, Rivera-Pérez JA, Xu Z. A Non-Specific Effect Associated with Conditional Transgene Expression Based on Cre-loxP Strategy in Mice. PLoS One. 2011; 6(5):e18778.
  View in: PubMed
 
3. Yang C, Qiu L, Xu Z. Specific Gene Silencing Using RNAi in Cell Culture. Methods Mol Biol. 2011; 793:457-77.
  View in: PubMed
 
4. Yang C, Tan W, Whittle C, Qiu L, Cao L, Akbarian S, Xu Z. The C-Terminal TDP-43 Fragments Have a High Aggregation Propensity and Harm Neurons by a Dominant-Negative Mechanism. PLoS One. 2010; 5(12):e15878.
  View in: PubMed
 
5. Wu R, Wang H, Xia X, Zhou H, Liu C, Castro M, Xu Z. Nerve injection of viral vectors efficiently transfers transgenes into motor neurons and delivers RNAi therapy against ALS. Antioxid Redox Signal. 2009 Jul; 11(7):1523-34.
  View in: PubMed
 
6. Qiu L, Wang H, Xia X, Zhou H, Xu Z. A construct with fluorescent indicators for conditional expression of miRNA. BMC Biotechnol. 2008; 8:77.
  View in: PubMed
 
7. Wang H, Ghosh A, Baigude H, Yang CS, Qiu L, Xia X, Zhou H, Rana TM, Xu Z. Therapeutic gene silencing delivered by a chemically modified small interfering RNA against mutant SOD1 slows amyotrophic lateral sclerosis progression. J Biol Chem. 2008 Jun 6; 283(23):15845-52.
  View in: PubMed
 
8. Zou T, Ilangovan R, Yu F, Xu Z, Zhou J. SMN protects cells against mutant SOD1 toxicity by increasing chaperone activity. Biochem Biophys Res Commun. 2007 Dec 28; 364(4):850-5.
  View in: PubMed
 
9. Schwarz DS, Ding H, Kennington L, Moore JT, Schelter J, Burchard J, Linsley PS, Aronin N, Xu Z, Zamore PD. Designing siRNA that distinguish between genes that differ by a single nucleotide. PLoS Genet. 2006 Sep 8; 2(9):e140.
  View in: PubMed
 
10. Xia X, Zhou H, Huang Y, Xu Z. Allele-specific RNAi selectively silences mutant SOD1 and achieves significant therapeutic benefit in vivo. Neurobiol Dis. 2006 Sep; 23(3):578-86.
  View in: PubMed
 
11. Xia XG, Zhou H, Xu Z. Multiple shRNAs expressed by an inducible pol II promoter can knock down the expression of multiple target genes. Biotechniques. 2006 Jul; 41(1):64-8.
  View in: PubMed
 
12. Xia XG, Zhou H, Xu Z. Transgenic RNAi: Accelerating and expanding reverse genetics in mammals. Transgenic Res. 2006 Jun; 15(3):271-5.
  View in: PubMed
 
13. Schonhoff CM, Matsuoka M, Tummala H, Johnson MA, Estevéz AG, Wu R, Kamaid A, Ricart KC, Hashimoto Y, Gaston B, Macdonald TL, Xu Z, Mannick JB. S-nitrosothiol depletion in amyotrophic lateral sclerosis. Proc Natl Acad Sci U S A. 2006 Feb 14; 103(7):2404-9.
  View in: PubMed
 
14. Xia XG, Zhou H, Samper E, Melov S, Xu Z. Pol II-expressed shRNA knocks down Sod2 gene expression and causes phenotypes of the gene knockout in mice. PLoS Genet. 2006 Jan; 2(1):e10.
  View in: PubMed
 
15. Xu Z, Xia XG. RNAi therapy: dominant disease gene gets silenced. Gene Ther. 2005 Aug; 12(15):1159-60.
  View in: PubMed
 
16. Tiwari A, Xu Z, Hayward LJ. Aberrantly increased hydrophobicity shared by mutants of Cu,Zn-superoxide dismutase in familial amyotrophic lateral sclerosis. J Biol Chem. 2005 Aug 19; 280(33):29771-9.
  View in: PubMed
 
17. Zhou H, Xia XG, Xu Z. An RNA polymerase II construct synthesizes short-hairpin RNA with a quantitative indicator and mediates highly efficient RNAi. Nucleic Acids Res. 2005; 33(6):e62.
  View in: PubMed
 
18. Tummala H, Jung C, Tiwari A, Higgins CM, Hayward LJ, Xu Z. Inhibition of chaperone activity is a shared property of several Cu,Zn-superoxide dismutase mutants that cause amyotrophic lateral sclerosis. J Biol Chem. 2005 May 6; 280(18):17725-31.
  View in: PubMed
 
19. Xia XG, Zhou H, Zhou S, Yu Y, Wu R, Xu Z. An RNAi strategy for treatment of amyotrophic lateral sclerosis caused by mutant Cu,Zn superoxide dismutase. J Neurochem. 2005 Jan; 92(2):362-7.
  View in: PubMed
 
20. Xia XG, Zhou H, Xu Z. Promises and challenges in developing RNAi as a research tool and therapy for neurodegenerative diseases. Neurodegener Dis. 2005; 2(3-4):220-31.
  View in: PubMed
 
21. Xu Z, Jung C, Higgins C, Levine J, Kong J. Mitochondrial degeneration in amyotrophic lateral sclerosis. J Bioenerg Biomembr. 2004 Aug; 36(4):395-9.
  View in: PubMed
 
22. Schwarz DS, Hutvágner G, Du T, Xu Z, Aronin N, Zamore PD. Asymmetry in the assembly of the RNAi enzyme complex. Cell. 2003 Oct 17; 115(2):199-208.
  View in: PubMed
 
23. Xia XG, Zhou H, Ding H, Affar el B, Shi Y, Xu Z. An enhanced U6 promoter for synthesis of short hairpin RNA. Nucleic Acids Res. 2003 Sep 1; 31(17):e100.
  View in: PubMed
 
24. Ding H, Schwarz DS, Keene A, Affar el B, Fenton L, Xia X, Shi Y, Zamore PD, Xu Z. Selective silencing by RNAi of a dominant allele that causes amyotrophic lateral sclerosis. Aging Cell. 2003 Aug; 2(4):209-17.
  View in: PubMed
 
25. Higgins CM, Jung C, Xu Z. ALS-associated mutant SOD1G93A causes mitochondrial vacuolation by expansion of the intermembrane space and by involvement of SOD1 aggregation and peroxisomes. BMC Neurosci. 2003 Jul 15; 4:16.
  View in: PubMed
 
26. Jung C, Higgins CM, Xu Z. Mitochondrial electron transport chain complex dysfunction in a transgenic mouse model for amyotrophic lateral sclerosis. J Neurochem. 2002 Nov; 83(3):535-45.
  View in: PubMed
 
27. Zhang Z, Casey DM, Julien JP, Xu Z. Normal dendritic arborization in spinal motoneurons requires neurofilament subunit L. J Comp Neurol. 2002 Aug 19; 450(2):144-52.
  View in: PubMed
 
28. Jung C, Higgins CM, Xu Z. A quantitative histochemical assay for activities of mitochondrial electron transport chain complexes in mouse spinal cord sections. J Neurosci Methods. 2002 Mar 15; 114(2):165-72.
  View in: PubMed
 
29. Higgins CM, Jung C, Ding H, Xu Z. Mutant Cu, Zn superoxide dismutase that causes motoneuron degeneration is present in mitochondria in the CNS. J Neurosci. 2002 Mar 15; 22(6):RC215.
  View in: PubMed
 
30. Jung C, Rong Y, Doctrow S, Baudry M, Malfroy B, Xu Z. Synthetic superoxide dismutase/catalase mimetics reduce oxidative stress and prolong survival in a mouse amyotrophic lateral sclerosis model. Neurosci Lett. 2001 May 25; 304(3):157-60.
  View in: PubMed
 
31. Xu Z, Tung VW. Temporal and spatial variations in slow axonal transport velocity along peripheral motoneuron axons. Neuroscience. 2001; 102(1):193-200.
  View in: PubMed
 
32. Jung C, Higgins CM, Xu Z. Measuring the quantity and activity of mitochondrial electron transport chain complexes in tissues of central nervous system using blue native polyacrylamide gel electrophoresis. Anal Biochem. 2000 Nov 15; 286(2):214-23.
  View in: PubMed
 
33. Xu Z. Mechanism and treatment of motoneuron degeneration in ALS: what have SOD1 mutants told us? Amyotroph Lateral Scler Other Motor Neuron Disord. 2000 Sep; 1(4):225-34.
  View in: PubMed
 
34. Xu Z, Tung VW. Overexpression of neurofilament subunit M accelerates axonal transport of neurofilaments. Brain Res. 2000 Jun 2; 866(1-2):326-32.
  View in: PubMed
 
35. Kong J, Xu Z. Overexpression of neurofilament subunit NF-L and NF-H extends survival of a mouse model for amyotrophic lateral sclerosis. Neurosci Lett. 2000 Mar 3; 281(1):72-4.
  View in: PubMed
 
36. Levine JB, Kong J, Nadler M, Xu Z. Astrocytes interact intimately with degenerating motor neurons in mouse amyotrophic lateral sclerosis (ALS). Glia. 1999 Dec; 28(3):215-24.
  View in: PubMed
 
37. Kong J, Xu Z. Peripheral axotomy slows motoneuron degeneration in a transgenic mouse line expressing mutant SOD1 G93A. J Comp Neurol. 1999 Sep 20; 412(2):373-80.
  View in: PubMed
 
38. Kong J, Xu Z. Massive mitochondrial degeneration in motor neurons triggers the onset of amyotrophic lateral sclerosis in mice expressing a mutant SOD1. J Neurosci. 1998 May 1; 18(9):3241-50.
  View in: PubMed
 
39. Kong J, Tung VW, Aghajanian J, Xu Z. Antagonistic roles of neurofilament subunits NF-H and NF-M against NF-L in shaping dendritic arborization in spinal motor neurons. J Cell Biol. 1998 Mar 9; 140(5):1167-76.
  View in: PubMed
 
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Co-Authors  
Aronin, Neil
Hayward, Lawrence
Rana, Tariq
Tiwari, Ashutosh
Zamore, Phillip
See all (9) people
Physical Neighbors  
Bhyravbhatla, Balaji
Sagerstrom, Charles
Miller, Stephen
Burstein, Sumner
Whitfield, Troy

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