Cutaneous TRPV4 Channels Activate Warmth-Defense Responses in Young and Adult Birds

Cristina-Silva, Caroline; Amaral-Silva, Lara; Santos, Kássia Moreira; Correa, Gabriela Monteiro; Silva, Welex Cândido da; Fernandes, M. H. M. R.; Silva, Glauber S. F. da; Gargaglioni, Luciane H.; Almeida, Maria Camila; Bícego, Kênia C.

doi:10.3389/fphys.2022.892828

Front. Physiol.

2022

DOI: 10.3389/fphys.2022.892828

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Cutaneous TRPV4 Channels Activate Warmth-Defense Responses in Young and Adult Birds

Caroline Cristina-Silva

Lara Amaral-Silva

Kássia Moreira Santos

et al.

Abstract: Transient receptor potential vanilloid 4 (TRPV4) channels are sensitive to warm ambient temperatures (Tas), triggering heat loss responses in adult rats in a Tas range of ∼26–30°C. In birds, however, the thermoregulatory role of TRPV4 has never been shown. Here, we hypothesized that stimulation of TRPV4 induces thermolytic responses for body temperature (Tb) maintenance in birds, and that this function is already present in early life, when the Ta range for TRPV4 activation does not represent a warm condition … Show more

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2024

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Understanding the role of temperature in seasonal timing: Effects on behavioural, physiological and molecular phenotypes

Sur,

Sharma

2024

Molecular Ecology

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Organisms adapt to daily and seasonal environmental changes to maximise their metabolic and reproductive fitness. For seasonally breeding animals, photoperiod is considered the most robust cue to drive these changes. It, however, does not explain the interannual variations in different seasonal phenotypes. Several studies have repeatedly shown the influence of ambient temperature on the timing of different seasonal physiologies including the timing of migration, reproduction and its associated behaviours, etc. In the present review, we have discussed the effects of changes in ambient temperature on different seasonal events in endotherms with a focus on migratory birds as they have evolved to draw benefits from distinct but largely predictable seasonal patterns of natural resources. We have further discussed the physiological and molecular mechanisms by which temperature affects seasonal timings. The primary brain area involved in detecting temperature changes is the hypothalamic preoptic area. This area receives thermal inputs via sensory neurons in the peripheral ganglia that measure changes in thermoregulatory tissues such as the skin and spinal cord. For the input signals, several thermal sensory TRP (transient receptor potential ion channels) channels have been identified across different classes of vertebrates. These channels are activated at specific thermal ranges. Once perceived, this information should activate an effector function. However, the link between temperature sensation and the effector pathways is not properly understood yet. Here, we have summarised the available information that may help us understand how temperature information is translated into seasonal timing.

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Understanding the role of temperature in seasonal timing: Effects on behavioural, physiological and molecular phenotypes

Sur,

Sharma

2024

Molecular Ecology

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Cutaneous TRPV4 Channels Activate Warmth-Defense Responses in Young and Adult Birds

Cited by 1 publication

References 62 publications

Understanding the role of temperature in seasonal timing: Effects on behavioural, physiological and molecular phenotypes

Understanding the role of temperature in seasonal timing: Effects on behavioural, physiological and molecular phenotypes

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