Jung-Hwa Tao-Cheng scite author profile

Summary Mutations in α-synuclein and Leucine-rich repeat kinase 2 (LRRK2) are linked to autosomal dominant forms of Parkinson’s disease (PD). However, little is known about any potential pathophysiological interplay between these two PD-related genes. Here we show in transgenic mice that although over-expression of LRRK2 alone did not cause neurodegeneration, the presence of excess LRRK2 greatly accelerated the progression of neuropathological abnormalities developed in PD-related A53T α-synuclein transgenic mice. Moreover, we found that LRRK2 promoted the abnormal aggregation and somatic accumulation of α-synuclein in A53T mice, likely resulted from the impairment of microtubule dynamics, Golgi organization, and ubiquitin-proteasome pathway. Conversely, genetic ablation of LRRK2 preserved the Golgi structure, suppressed the aggregation and somatic accumulation of α-synuclein, and thereby delayed the progression of neuropathology in A53T mice. These findings demonstrate that over-expression of LRRK2 enhances α-synuclein-mediated cytotoxicity and suggest inhibition of LRRK2 expression as a potential therapeutic option for ameliorating α-synuclein-induced neurodegeneration.

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Chromogranin A, an “On/Off” Switch Controlling Dense-Core Secretory Granule Biogenesis

Kim

Tao-Cheng

Eiden

et al. 2001

Cell

404

395

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We present evidence that regulation of dense-core secretory granule biogenesis and hormone secretion in endocrine cells is dependent on chromogranin A (CGA). Downregulation of CGA expression in a neuroendocrine cell line, PC12, by antisense RNAs led to profound loss of dense-core secretory granules, impairment of regulated secretion of a transfected prohormone, and reduction of secretory granule proteins. Transfection of bovine CGA into a CGA-deficient PC12 clone rescued the regulated secretory phenotype. Stable transfection of CGA into a CGA-deficient pituitary cell line, 6T3, lacking a regulated secretory pathway, restored regulated secretion. Overexpression of CGA induced dense-core granules, immunoreactive for CGA, in nonendocrine fibroblast CV-1 cells. We conclude that CGA is an "on/off" switch that alone is sufficient to drive dense-core secretory granule biogenesis and hormone sequestration in endocrine cells.

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Persistent Accumulation of Calcium/Calmodulin-Dependent Protein Kinase II in Dendritic Spines after Induction of NMDA Receptor-Dependent Chemical Long-Term Potentiation

Otmakhov¹,

Tao-Cheng²,

Carpenter³

et al. 2004

J. Neurosci.

233

196

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Calcium/calmodulin-dependent protein kinase II (CaMKII) is a leading candidate for a synaptic memory molecule because it is persistently activated after long-term potentiation (LTP) induction and because mutations that block this persistent activity prevent LTP and learning. Previous work showed that synaptic stimulation causes a rapidly reversible translocation of CaMKII to the synaptic region. We have now measured green fluorescent protein (GFP)-CaMKII␣ translocation into synaptic spines during NMDA receptor-dependent chemical LTP (cLTP) and find that under these conditions, translocation is persistent. Using red fluorescent protein as a cell morphology marker, we found that there are two components of the persistent accumulation. cLTP produces a persistent increase in spine volume, and some of the increase in GFP-CaMKII␣ is secondary to this volume change. In addition, cLTP results in a dramatic increase in the bound fraction of GFP-CaMKII␣ in spines. To further study the bound pool, immunogold electron microscopy was used to measure CaMKII␣ in the postsynaptic density (PSD), an important regulator of synaptic function. cLTP produced a persistent increase in the PSD-associated pool of CaMKII␣. These results are consistent with the hypothesis that CaMKII␣ accumulation at synapses is a memory trace of past synaptic activity.

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