Sharon Lam scite author profile

INTRODUCTION Parkinson’s disease (PD) is the second most common neurodegenerative disorder that leads to slowness of movement, tremor, rigidity and in the later stages of PD, cognitive impairment. Pathologically PD is characterized by the accumulation of α-synuclein in Lewy bodies and neurites. There is degeneration of neurons throughout the nervous system with the degeneration of dopamine neurons in the substantia nigra pars compacta leading to the major symptoms of PD. RATIONALE In the brains of PD patients, pathologic α-synuclein seems to spread from cell-to-cell via self-amplification, propagation, and transmission in a stereotypical and topographical pattern among neighboring cells and/or anatomically connected brain regions. The spread or transmission of pathologic α-synuclein is emerging as potentially important driver of PD pathogenesis. The underlying mechanisms and molecular entities responsible for the transmission of pathologic α-synuclein from cell-to-to cell are not known, but the entry of pathologic α-synuclein into neurons is thought to occur, in part through an active clathrin-dependent endocytic process. RESULTS Using recombinant α-synuclein pre-formed fibrils (PFF) as a model system to study the transmission of misfolded α-synuclein from neuron to neuron, we screened a library encoding transmembrane proteins for α-synuclein-biotin PFF binding candidates via detection by streptavidin-AP (alkaline phosphatase) staining. Three positive clones were identified that bind α-synuclein PFF and include lymphocyte-activation gene 3 (LAG3), neurexin 1β and amyloid beta precursor-like protein 1 (APLP1). Of these three transmembrane proteins, LAG3 demonstrated the highest ratio of selectivity for α-synuclein PFF over the α-synuclein monomer. α-Synuclein PFF binds to LAG3 in a saturable manner (Kd = 77 nM), while the α-synuclein monomer does not bind to LAG3. Co-immunoprecipitation also suggests that pathological α-synuclein PFF specifically binds to LAG3. Tau PFF, β-amyloid oligomer and β-amyloid PFF do not bind LAG3 indicating that LAG3 is specific for α-synuclein PFF. The internalization of α-synuclein PFF involves LAG3 since deletion of LAG3 reduces the endocytosis of α-synuclein PFF. LAG3 colocalizes with the endosomal GTPases, Rab5 and Rab7 and co-endocytoses with pathologic α-synuclein. Neuron-to-neuron transmission of pathologic α-synuclein and the accompanying pathology and neurotoxicity is substantially attenuated by deletion of LAG3 or by LAG3 antibodies. The lack of LAG3 also substantially delayed α-synuclein PFF induced loss of dopamine neurons, as well as biochemical and behavioral deficits in vivo. CONCLUSION We discovered that pathologic α-synuclein transmission and toxicity is initiated by binding to LAG3 and that neuron-to-neuron transmission of pathological α-synuclein involves the endocytosis of exogenous α-synuclein PFF by the engagement of LAG3 on neurons. Depletion of LAG3 or antibodies to LAG3 substantially reduce the pathology set in motion by the transmission of pathologic α-...

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Infusion of donor-derived CD19-redirected virus-specific T cells for B-cell malignancies relapsed after allogeneic stem cell transplant: a phase 1 study

Cruz

et al. 2013

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Inhibition of chemotherapy resistant breast cancer stem cells by a ROR1 specific antibody

Zhang

Ghia

et al. 2019

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

106

116

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SignificanceWe report that breast cancer cells surviving treatment with paclitaxel express relatively high levels of ROR1, which can induce activation of stem-cell signaling pathways in response to Wnt5a. A humanized anti-ROR1 drug, cirmtuzumab, can inhibit ROR1-dependent activation of such signaling and impair the capacity of post-treatment breast cancer cells to metastasize or reengraft immune-deficient mice.

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Expanded Cytotoxic T-cell Lymphocytes Target the Latent HIV Reservoir

Sung¹,

Lam

Garrido³

et al. 2015

J Infect Dis.

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Enhanced human immunodeficiency virus (HIV)-specific immunity may be required for HIV eradication. Administration of autologous, ex vivo expanded, virus-specific, cytotoxic T-lymphocytes derived from HIV-infected patients on suppressive antiretroviral therapy (HXTCs) are a powerful tool for proof-of-concept studies. Broadly specific, polyclonal HXTCs resulting from ex vivo expansion demonstrated improved control of autologous reservoir virus compared to bulk CD8(+) T cells in viral inhibition assays. Furthermore, patient-derived HXTCs were able to clear latently infected autologous resting CD4(+) T cells following exposure to the latency-reversing agent, vorinostat. HXTCs will be ideal reagents to administer with precise control in future in vivo studies in combination with latency-reversing agents.

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Sharon Lam

Pathological α-synuclein transmission initiated by binding lymphocyte-activation gene 3

Infusion of donor-derived CD19-redirected virus-specific T cells for B-cell malignancies relapsed after allogeneic stem cell transplant: a phase 1 study

Inhibition of chemotherapy resistant breast cancer stem cells by a ROR1 specific antibody

Expanded Cytotoxic T-cell Lymphocytes Target the Latent HIV Reservoir

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