Anthony H. Tsang scite author profile

SummaryLymphocytes circulate through lymph nodes (LN) in search for antigen in what is believed to be a continuous process. Here, we show that lymphocyte migration through lymph nodes and lymph occurred in a non-continuous, circadian manner. Lymphocyte homing to lymph nodes peaked at night onset, with cells leaving the tissue during the day. This resulted in strong oscillations in lymphocyte cellularity in lymph nodes and efferent lymphatic fluid. Using lineage-specific genetic ablation of circadian clock function, we demonstrated this to be dependent on rhythmic expression of promigratory factors on lymphocytes. Dendritic cell numbers peaked in phase with lymphocytes, with diurnal oscillations being present in disease severity after immunization to induce experimental autoimmune encephalomyelitis (EAE). These rhythms were abolished by genetic disruption of T cell clocks, demonstrating a circadian regulation of lymphocyte migration through lymph nodes with time-of-day of immunization being critical for adaptive immune responses weeks later.

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Oxidative and nitrosative stress in Parkinson's disease

Tsang

Chung

2009

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

262

181

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Parkinson's disease (PD) is a common neurodegenerative disorder marked by movement impairment caused by a selective degeneration of dopaminergic neurons. The mechanism for dopaminergic neuronal degeneration in PD is not completely clear, but it is believed that oxidative and nitrosative stress plays an important role during the pathogenesis of PD. This notion is supported by various studies that several indices of oxidative and nitrosative stress are increased in PD patients. In recent years, different pathways that are known to be important for neuronal survival have been shown to be affected by oxidative and nitrosative stress. Apart from the well-known oxidative free radicals induced protein nitration, lipid peroxidation and DNA damage, increasing evidence also suggests that some neuroprotective pathways can be affected by nitric oxide through S-nitrosylation. In addition, the selective dopaminergic neurodegeneration suggests that generation of oxidative stress associated with the metabolism of dopamine is an important contributor. Thorough understanding of how oxidative stress can contribute to the pathogenesis of PD will help formulate potential therapy for the treatment of this neurodegenerative disorder in the future.

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S-nitrosylation of XIAP compromises neuronal survival in Parkinson's disease

Tsang

Lee

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

144

112

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Inhibitors of apoptosis (IAPs) are a family of highly-conserved proteins that regulate cell survival through binding to caspases, the final executioners of apoptosis. X-linked IAP (XIAP) is the most widely expressed IAP and plays an important function in regulating cell survival. XIAP contains 3 baculoviral IAP repeats (BIRs) followed by a RING finger domain at the C terminal. The BIR domains of XIAP possess anticaspase activities, whereas the RING finger domain enables XIAP to function as an E3 ubiquitin ligase in the ubiquitin and proteasomal system. Our previous study showed that parkin, a protein that is important for the survival of dopaminergic neurons in Parkinson's disease (PD), is S-nitrosylated both in vitro and in vivo in PD patients. S-nitrosylation of parkin compromises its ubiquitin E3 ligase activity and its protective function, which suggests that nitrosative stress is an important factor in regulating neuronal survival during the pathogenesis of PD. In this study we show that XIAP is S-nitrosylated in vitro and in vivo in an animal model of PD and in PD patients. Nitric oxide modifies mainly cysteine residues within the BIR domains. In contrast to parkin, S-nitrosylation of XIAP does not affect its E3 ligase activity, but instead directly compromises its anticaspase-3 and antiapoptotic function. Our results confirm that nitrosative stress contributes to PD pathogenesis through the impairment of prosurvival proteins such as parkin and XIAP through different mechanisms, indicating that abnormal S-nitrosylation plays an important role in the process of neurodegeneration.

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Anthony H. Tsang

Lymphocyte Circadian Clocks Control Lymph Node Trafficking and Adaptive Immune Responses

Oxidative and nitrosative stress in Parkinson's disease

S-nitrosylation of XIAP compromises neuronal survival in Parkinson's disease

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