Chun‐Hao Chen scite author profile

Although many genes have been implicated in the pathogenesis of common neurodegenerative diseases, the genetic and cellular mechanisms that maintain neuronal integrity during normal aging remain elusive. Here we show that Caenorhabditis elegans touch receptor and cholinergic neurons display age-dependent morphological defects, including cytoskeletal disorganization, axon beading, and defasciculation. Progression of neuronal aging is regulated by DAF-2 and DAF-16 signaling, which also modulate adult life span. Mutations that disrupt touch-evoked sensory activity or reduce membrane excitability trigger accelerated neuronal aging, indicating that electrical activity is critical for adult neuronal integrity. Disrupting touch neuron attachment to the epithelial cells induces distinct neurodegenerative phenotypes. These results provide a detailed description of the age-dependent morphological defects that occur in identified neurons of C. elegans, demonstrate that the age of onset of these defects is regulated by specific genes, and offer experimental evidence for the importance of normal levels of neural activity in delaying neuronal aging. In the nematode Caenorhabditis elegans, age-dependent morphological changes are widespread in somatic tissues (2-4). However, there is little evidence for neuronal aging in C. elegans (3). The observations by Herndon et al. (3) suggest that neuronal loss or axon guidance defects do not occur in the aging C. elegans nervous system. It was also shown that whereas nuclear membranes of other somatic cell nuclei undergo drastic age-dependent deterioration, those of neuronal nuclei remain relatively intact in aging animals (4).There is, however, a clear age-dependent behavioral decline in C. elegans, including decrease in pharyngeal pumping, locomotion and chemotaxis (5). Evidence suggests that failure in neuronal activity could play a direct role in age-dependent behavioral deterioration. Cai and Sesti (6) showed that age-dependent oxidation of the C. elegans potassium channel KVS-1 causes sensory loss and that protection of neuronal KVS-1 from oxidation rescues agedependent decline in chemotaxis behavior. Electrical activity has been shown to be important for neuronal development (7) and was recently implicated in the survival or maintenance of adult mammalian and Drosophila neurons (8, 9). However, it is unclear how electrical activity promotes the integrity of adult neurons.In this paper, we address whether more subtle, subcellular changes occur in the aging C. elegans nervous system. Our results indicate that C. elegans neurons do develop age-dependent changes. Moreover, we show that electrical activity and normal attachment to the neighboring epithelial cells are required for the maintenance of adult touch receptor neurons.

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GFRα1 released by nerves enhances cancer cell perineural invasion through GDNF-RET signaling

Chen

Chernichenko

et al. 2014

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

106

124

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The ability of cancer cells to invade along nerves is associated with aggressive disease and diminished patient survival rates. Perineural invasion (PNI) may be mediated by nerve secretion of glial cell line-derived neurotrophic factor (GDNF) attracting cancer cell migration through activation of cell surface Ret proto-oncogene (RET) receptors. GDNF family receptor (GFR)α1 acts as coreceptor with RET, with both required for response to GDNF. We demonstrate that GFRα1 released by nerves enhances PNI, even in the absence of cancer cell GFRα1 expression. Cancer cell migration toward GDNF, RET phosphorylation, and MAPK pathway activity are increased with exposure to soluble GFRα1 in a dose-dependent fashion. Dorsal root ganglia (DRG) release soluble GFRα1, which potentiates RET activation and cancer cell migration. In vitro DRG coculture assays of PNI show diminished PNI with DRG from GFRα1 +/− mice compared with GFRα1 +/+ mice. An in vivo murine model of PNI demonstrates that cancer cells lacking GFRα1 maintain an ability to invade nerves and impair nerve function, whereas those lacking RET lose this ability. A tissue microarray of human pancreatic ductal adenocarcinomas demonstrates wide variance of cancer cell GFRα1 expression, suggesting an alternate source of GFRα1 in PNI. These findings collectively demonstrate that GFRα1 released by nerves enhances PNI through GDNF-RET signaling and that GFRα1 expression by cancer cells enhances but is not required for PNI. These results advance a mechanistic understanding of PNI and implicate the nerve itself as a key facilitator of this adverse cancer cell behavior.

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Review Article: Recent advancements in optofluidic flow cytometer

Cho¹,

Godin²,

Chen³

et al. 2010

139

105

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There is an increasing need to develop optofluidic flow cytometers. Optofluidics, where optics and microfluidics work together to create novel functionalities on a small chip, holds great promise for lab-on-a-chip flow cytometry. The development of a low-cost, compact, handheld flow cytometer and microfluorescence-activated cell sorter system could have a significant impact on the field of point-of-care diagnostics, improving health care in, for example, underserved areas of Africa and Asia, that struggle with epidemics such as HIV/AIDS. In this paper, we review recent advancements in microfluidics, on-chip optics, novel detection architectures, and integrated sorting mechanisms.

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Microfluidics and photonics for Bio‐System‐on‐a‐Chip: A review of advancements in technology towards a microfluidic flow cytometry chip

Godin

Chen

Cho

et al. 2008

Journal of Biophotonics

149

106

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Microfluidics and photonics come together to form a field commonly referred to as ‘optofluidics’. Flow cytometry provides the field with a technology base from which both microfluidic and photonic components be developed and integrated into a useful device. This article reviews some of the more recent developments to familiarize a reader with the current state of the technologies and also highlights the requirements of the device and how researchers are working to meet these needs. A microfluidic flow cytometer protoype employing on-chip lenses for illumination and light collection in conjunction with a microfluidic sample flow system for device miniaturization.

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A GA-based Fuzzy Mining Approach to Achieve a Trade-off Between Number of Rules and Suitability of Membership Functions

et al. 2006

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Data mining is most commonly used in attempts to induce association rules from transaction data. Transactions in real-world applications, however, usually consist of quantitative values. This paper thus proposes a fuzzy data-mining algorithm for extracting both association rules and membership functions from quantitative transactions. We present a GA-based framework for finding membership functions suitable for mining problems and then use the final best set of membership functions to mine fuzzy association rules. The fitness of each chromosome is evaluated by the number of large 1-itemsets generated from part of the previously proposed fuzzy mining algorithm and by the suitability of the membership functions. Experimental results also show the effectiveness of the framework.

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A C. elegans Thermosensory Circuit Regulates Longevity through crh-1 /CREB-Dependent flp-6 Neuropeptide Signaling

Chen

Tseng

et al. 2016

Developmental Cell

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Sensory perception, including thermosensation, shapes longevity in diverse organisms, but longevity-modulating signals from the sensory neurons are largely obscure. Here we show that CRH-1/CREB activation by CMK-1/CaMKI in the AFD thermosensory neuron is a key mechanism that maintains lifespan at warm temperatures in C. elegans. In response to temperature rise and crh-1 activation, the AFD neurons produce and secrete the FMRFamide neuropeptide FLP-6. Both CRH-1 and FLP-6 are necessary and sufficient for longevity at warm temperatures. Our data suggest that FLP-6 targets the AIY interneurons and engages DAF-9 sterol hormone signaling. Moreover, we show that FLP-6 signaling downregulates ins-7/insulin-like peptide and several insulin pathway genes, whose activity compromises lifespan. Our work illustrates how temperature experience is integrated by the thermosensory circuit to generate neuropeptide signals that remodel insulin and sterol hormone signaling and reveals a neuronal-endocrine circuit driven by thermosensation to promote temperature-specific longevity.

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Progression of Periodontal Destruction and the Roles of Advanced Glycation End Products in Experimental Diabetes

Chang

Chien

Yeo

et al. 2013

Journal of Periodontology

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Chun‐Hao Chen

Schwann cells induce cancer cell dispersion and invasion

Genetic analysis of age-dependent defects of the Caenorhabditis elegans touch receptor neurons

GFRα1 released by nerves enhances cancer cell perineural invasion through GDNF-RET signaling

Review Article: Recent advancements in optofluidic flow cytometer

Microfluidics and photonics for Bio‐System‐on‐a‐Chip: A review of advancements in technology towards a microfluidic flow cytometry chip

A GA-based Fuzzy Mining Approach to Achieve a Trade-off Between Number of Rules and Suitability of Membership Functions

A C. elegans Thermosensory Circuit Regulates Longevity through crh-1 /CREB-Dependent flp-6 Neuropeptide Signaling

Progression of Periodontal Destruction and the Roles of Advanced Glycation End Products in Experimental Diabetes

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