A critical evaluation of TRPA1-mediated locomotor behavior in zebrafish as a screening tool for novel anti-nociceptive drug discovery

Ko, Mee Jung; Ganzen, Logan; Coskun, Emre; Mukadam, Arbaaz A.; Leung, Yiu-Wing; Rijn, Richard M. van

doi:10.1038/s41598-019-38852-9

Cited by 12 publications

(17 citation statements)

References 41 publications

(51 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Furthermore, annelid worms are a favourite food item of C. batrachus (Das, 1928) and were found by a survey responder to be in the stomachs of many C. batrachus that were on land and surrounded by annelids. Quinine is a bitter compound that elicits negative taste responses in fish when mixed with food (Lamb & Finger, 1995), and AITC in solution targets TRPA1 nociceptors on solitary chemosensory cells in fish, which are found on the bodies of C. batrachus (Curtright et al, 2015;Hinman et al, 2006;Ko et al, 2019;Kotrschal, 1995), but C. batrachus showed no orientation response to either substance on the substrate. Alternatively, quinine and AITC are barely soluble and insoluble in water, respectively.…”

Section: Survey and Youtube Resultsmentioning

confidence: 99%

“…Quinine is a bitter compound that elicits negative taste responses in fish when mixed with food (Lamb & Finger, 1995), and AITC in solution targets TRPA1 nociceptors on solitary chemosensory cells in fish, which are found on the bodies of C. batrachus (Curtright et al ., 2015; Hinman et al ., 2006; Ko et al ., 2019; Kotrschal, 1995), but C. batrachus showed no orientation response to either substance on the substrate. Therefore, C. batrachus may not use these compounds for terrestrial orientation.…”

Section: Discussionmentioning

confidence: 97%

“…Quinine was chosen because it elicits a negative taste response in fish (Lamb & Finger, 1995). AITC was used to determine the role of nociception in terrestrial orientation because AITC activates TRPA1 nociceptors in fish, causing an aversive response (Curtright et al ., 2015; Hinman et al ., 2006; Ko et al ., 2019). Due to the low solubility of quinine (0.5 g/l) and the insolubility of AITC in water, supersaturated solutions of these substances were created to aversive concentrations, based on the literature (Ko et al ., 2019; Lamb & Finger, 1995), and then shaken in spray bottles immediately before dispersion onto the TA to ensure even coverage.…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Why did the invasive walking catfish cross the road? Terrestrial chemoreception described for the first time in a fish

Bressman

Hill

Ashley‐Ross

2020

Journal of Fish Biology

View full text Add to dashboard Cite

Clarias batrachus (walking catfish) is an invasive species in Florida, renowned for its air‐breathing and terrestrial locomotor capabilities. However, it is unknown how this species orients in terrestrial environments. Furthermore, while anecdotal life history information is widespread for this species in its nonnative range, little of this information exists in the literature. The goals of this study were to identify sensory modalities that C. batrachus use to orient on land, and to describe the natural history of this species in its nonnative range. Fish (n = 150) were collected from around Ruskin, FL, and housed in a greenhouse, where experiments took place. Individual catfish were placed in the center of a terrestrial arena and were exposed to nine treatments: two controls, L‐alanine, quinine, allyl isothiocynate, sucrose, volatile hydrogen sulphide, pond water and aluminium foil. These fish exhibited significantly positive chemotaxis toward alanine and pond water, and negative chemotaxis away from volatile hydrogen sulphide, suggesting chemoreception – both through direct contact and through the air – is important to their terrestrial orientation. Additionally, 88 people from Florida wildlife‐related Facebook groups who have personal observations of C. batrachus on land were interviewed for information regarding their terrestrial natural history. These data were combined with observations from 38 YouTube videos. C. batrachus appear to emerge most frequently during or just after heavy summer rains, particularly from stormwater drains in urban areas, where they may feed on terrestrial invertebrates. By better understanding the full life history of C. batrachus, we can improve management of this species.

show abstract

Section: Survey and Youtube Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 97%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Why did the invasive walking catfish cross the road? Terrestrial chemoreception described for the first time in a fish

Bressman

Hill

Ashley‐Ross

2020

Journal of Fish Biology

View full text Add to dashboard Cite

show abstract

“…It's unlikely that the concentration of HC-030031 in these experiments was too low to have any significant effect upon basal CPMC activity. Whilst HC-030031 is a relatively weak antagonist of murine TRPA1 channels (pA 2 ∼ 5.5; Ko et al, 2019) the antagonist was tested at an upper concentration shown to be specific for blocking TRPA1 (Capasso et al, 2012) and to cause almost complete inhibition of TRPA1 mediated Ca 2+ currents in HEK cells expressing TRPA1 (McNamara et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

TRPA1 Channel Activation Inhibits Motor Activity in the Mouse Colon

et al. 2020

View full text Add to dashboard Cite

There is a growing awareness of the role that TRP channels play in regulating sensory and motor functions in the gastrointestinal tract. In this study we used an in-vitro murine model of colonic peristaltic-like complexes (CPMCs) to evaluate the role of exogenous and endogenous TRPA1 signaling processes in regulating colonic motility. Using in-vitro recordings of intraluminal pressure to monitor the presence of CPMCs in colonic segments we performed a series of experiments on male CD1 mice (2 months of age) and found that CPMC activity was attenuated by TRPA1 agonists. Bath application of the TRPA1 antagonist HC-030031 had no effect upon basal CPMC activity whereas application of the synthetic TRPA1 agonist ASP7663 caused a reversible dose dependent decrease in CPMC frequency that was blocked by HC-030031. Cinnamaldehyde and 4-hydroxy-2-nonenal elicited long lasting decreases in CPMC frequency that were blocked by HC-030031 whereas the decreased CPMC activity invoked by AITC could not be blocked by HC-030031. Our results show that any potential mechanosensory function of TRPA1 doesn't involve contributing to distension induced colonic motor activity and that a role for TRPA1 in the colon is through regulating motility through exogenous and endogenous agonist induced inhibitory effects.

show abstract

“…Although previous studies had identified optovin analogues 37 , it was unclear whether TRPA1-mediated nonvisual photosensation also occurred with other, more structurally diverse compounds. Through this study, we have demonstrated that there are multiple novel compounds with structural and photochemical properties that differ greatly from those of optovin but are similarly able to induce motor activity in response to light.…”

Section: Light Responsive Compounds Demonstrate Structural Diversitymentioning

confidence: 99%

Identification of compounds producing non-visual photosensation via TRPA1 in zebrafish

Cheng

McCarroll

Taylor

et al. 2020

Preprint

View full text Add to dashboard Cite

TRPA1 receptors sense chemical irritants, but they do not normally respond to light. Previous studies have identified compounds that confer photosensitivity onto vertebrate TRPA1. However, the pharmacology of TRPA1-mediated non-visual photosensation remains poorly understood. To identify novel compounds that affect this process, we screened a large chemical library for compounds that increased light-elicited motor activity in larval zebrafish. We found structurally diverse hit compounds that were photoreactive and produced specific behavioral phenotypes. A subset of these compounds required functional TRPA1 to produce behavioral phenotypes in vivo. These findings provide novel prototype compounds for controlling TRPA1 with light and improve our understanding of non-visual TRPA1-mediated photosensation.

show abstract

A critical evaluation of TRPA1-mediated locomotor behavior in zebrafish as a screening tool for novel anti-nociceptive drug discovery

Cited by 12 publications

References 41 publications

Why did the invasive walking catfish cross the road? Terrestrial chemoreception described for the first time in a fish

Why did the invasive walking catfish cross the road? Terrestrial chemoreception described for the first time in a fish

TRPA1 Channel Activation Inhibits Motor Activity in the Mouse Colon

Identification of compounds producing non-visual photosensation via TRPA1 in zebrafish

Contact Info

Product

Resources

About