Maohua Zheng scite author profile

Summary Model organisms usually possess a small nervous system, but nevertheless execute a large array of complex behaviors, suggesting that some neurons are likely multifunctional and may encode multiple behavioral outputs. Here, we show that the C. elegans interneuron AIY regulates two distinct behavioral outputs: locomotion speed and direction-switch by recruiting two different circuits. The “speed” circuit is excitatory with a wide dynamic range, which is well suited to encode speed, an analog-like output. The “direction-switch” circuit is inhibitory with a narrow dynamic range, which is ideal for encoding direction-switch, a digital-like output. Both circuits employ the neurotransmitter ACh, but utilize distinct postsynaptic ACh receptors, whose distinct biophysical properties contribute to the distinct dynamic ranges of the two circuits. This mechanism enables graded worm synapses to encode both analog- and digital-like outputs. Our studies illustrate how an interneuron in a simple organism encodes multiple behavioral outputs at the circuit, synaptic, and molecular levels.

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Light‐sensitive coupling of rhodopsin and melanopsin to G_i/oand G_qsignal transduction inCaenorhabditis elegans

Cao

Sun

Kramp

et al. 2011

FASEB j.

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Activation of G-protein-coupled receptors (GPCRs) initiates signal transduction cascades that affect many physiological responses. The worm Caenorhabditis elegans expresses >1000 of these receptors along with their cognate heterotrimeric G proteins. Here, we report properties of 9-cis-retinal regenerated bovine opsin [(b)isoRho] and human melanopsin [(h)Mo], two light-activated, heterologously expressed GPCRs in the nervous system of C. elegans with various genetically engineered alterations. Profound transient photoactivation of G(i/o) signaling by (b)isoRho led to a sudden and transient loss of worm motility dependent on cyclic adenosine monophosphate, whereas transient photoactivation of G(q) signaling by (h)Mo enhanced worm locomotion dependent on phospholipase Cβ. These transgenic C. elegans models provide a unique way to study the consequences of G(i/o) and G(q) signaling in vivo with temporal and spatial precision and, by analogy, their relationship to human neuromotor function.

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miR‑128‑3p inhibits glioma cell proliferation and differentiation by targeting NPTX1 through IRS‑1/PI3K/AKT signaling pathway

Huo

Wang²,

Zheng

et al. 2019

Exp Ther Med

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It has been reported that glioma has a higher morbidity and mortality than other types of malignant brain tumor. While glioma has been extensively researched, the exact molecular mechanisms of its genesis and progression have remained to be fully elucidated. In order to explore a novel glioma-associated pathway which may represent a therapeutic target, 61 pairs of tumor tissues and adjacent normal tissues of glioma patients were collected and subjected to reverse-transcription quantitative polymerase chain reaction analysis, indicating that the relative expression of microRNA (miR)-128-3p was significantly decreased in the tumor tissues. However, the expression of neuronal pentraxin 1 (NPTX1) was obviously elevated. Through a bioinformatics analysis using Targetscan and transfection experiments, it was confirmed that NPTX1 was targeted by miR-128-3p. In the U251 human glioma cell line, transfection with miR-128-3p mimics increased the levels of phosphorylated insulin receptor substrate 1 (p-IRS-1), phosphoinositide-3 kinase (PI3K) and p-AKT, as demonstrated by western blot analysis. In addition, the proliferation rate of the cells was notably decreased following transfection with miR-128-3p mimics. Conversely, transfection with miR-128-3p inhibitor significantly increased the levels of p-IRS-1, PI3K and p-AKT, accompanied by an elevated proliferation rate of the cells. Therefore, it was indicated that miR-128-3p could reversely regulate NPTX1 expression. After the expression of NPTX1 was inhibited with specific small interfering RNA, the levels of p-IRS-1, PI3K and p-AKT were obviously decreased, while the expression of miR-128-3p was not significantly changed. Overall, it was concluded that miR-128-3p suppresses glioma through the NPTX1/IRS-1/PI3K/AKT signaling pathway.

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Calcium imaging of multiple neurons in freely behaving C. elegans

Zheng

Cao

Yang

et al. 2012

Journal of Neuroscience Methods

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C. elegans is a popular model organism to study how neural circuits and genes regulate behavior. To reliably correlate circuit function with behavior, it is important to record neuronal activity in freely-behaving worms. As neural circuits are composed of multiple neurons that cooperate to process information, it is highly desirable to simultaneously record the activity of multiple neurons in the circuitry. However, such a system has not been available in C. elegans. Here, we report the CARIBN II (Calcium Ratiometric Imaging of Behaving Nematodes version II) system. This system provides smoother data collection and more importantly permits simultaneous imaging of calcium transients from multiple neurons in freely-behaving worms. Using this system, we imaged the activity of AVA and RIM, two key neurons in the locomotion circuitry that regulate backward movement (reversal) in locomotion behavior. We found that AVA activity increases while RIM activity decreases during the same reversal events in spontaneous locomotion, consistent with the recent report that the AVA and RIM are involved in promoting the initiation of reversals. The CARIBN II system provides a valuable tool for dissecting the neural basis of behavior in C. elegans.

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The nematode C. elegans senses airborne sound

Iliff

Wang

Ronan

et al. 2021

Neuron

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Maohua Zheng

Encoding of Both Analog- and Digital-like Behavioral Outputs by One C. elegans Interneuron

Light‐sensitive coupling of rhodopsin and melanopsin to G_i/oand G_qsignal transduction inCaenorhabditis elegans

miR‑128‑3p inhibits glioma cell proliferation and differentiation by targeting NPTX1 through IRS‑1/PI3K/AKT signaling pathway

Calcium imaging of multiple neurons in freely behaving C. elegans

The nematode C. elegans senses airborne sound

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Maohua Zheng

Encoding of Both Analog- and Digital-like Behavioral Outputs by One C. elegans Interneuron

Light‐sensitive coupling of rhodopsin and melanopsin to Gi/oand Gqsignal transduction inCaenorhabditis elegans

miR‑128‑3p inhibits glioma cell proliferation and differentiation by targeting NPTX1 through IRS‑1/PI3K/AKT signaling pathway

Calcium imaging of multiple neurons in freely behaving C. elegans

The nematode C. elegans senses airborne sound

Contact Info

Product

Resources

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Light‐sensitive coupling of rhodopsin and melanopsin to G_i/oand G_qsignal transduction inCaenorhabditis elegans