Saturday, September 21, 2024

 

Zebrafish “taste” oxygen: A breakthrough in respiratory biology




University of Ottawa
Zebrafish “taste” oxygen: A breakthrough in respiratory biology 

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“We've uncovered a fascinating connection between taste and breathing in fish”

Steve Perry

— Emeritus Professor in the department of biology

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Credit: University of Ottawa





A recent study conducted at the University of Ottawa reveals that some fish use their tastebuds to measure oxygen levels in water. Specifically, zebrafish larvae (a freshwater fish that belongs to the minnow family) can taste oxygen levels in the water using the same cells they use to taste their food. Those same cells also function as oxygen sensors, playing a crucial role in regulating the fish’s breathing response to low oxygen conditions. This dual functionality of taste bud cells was previously unknown and challenges our existing understanding of sensory systems in aquatic animals.

"We've uncovered a fascinating connection between taste and breathing in fish," says Steve Perry, an Emeritus Professor in the department of biology at the University of Ottawa. "Our research provides the first direct evidence of oxygen-sensing cells linked to the control of breathing in these animals, and surprisingly, these cells are located within their taste buds."

To arrive at these conclusions, the research team employed innovative techniques, including intracellular calcium imaging in live fish. 

"We observed that these sensory cells are activated by low oxygen levels, or hypoxia," explains co-author Yihang Kevin Pan, a postdoctoral fellow in Professor Perry’s lab. "When we ablated – or removed- these cells, it disrupted the fish's breathing patterns under hypoxic conditions. Conversely, activating the nerves emanating from the taste buds stimulated breathing."

This discovery has far-reaching implications for understanding how fish adapt to changing environmental conditions. It suggests that the ability to "taste" oxygen levels in the water may be a crucial survival mechanism for aquatic organisms, allowing them to detect and respond to potentially dangerous low-oxygen situations quickly.

The research also highlights the remarkable adaptability of sensory systems in nature. "It's a prime example of how the same biological structure can serve multiple function," Pan notes. "In this case, taste buds in addition to the well-known function of sensing taste cues also serve a vital respiratory function."

As we face increasing environmental challenges, including climate change-induced alterations in aquatic ecosystems, understanding how fish perceive and respond to changes in their environment becomes ever more critical. Beyond scientific understanding, this discovery may have practical implications for protecting and cultivating aquatic life.

The study, titled “Developing zebrafish utilize taste-signaling pathways for oxygen chemoreception”, was published in the journal Current Biology. 

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