For a lot of animals, life is a cycle of shortage in addition to lots. Hibernating creatures curl up underground in winter, slowing their metabolism to allow them to make it to spring with out meals. Even laboratory mice, if disadvantaged of meals, can enter a state known as torpor, a form of standby mode that economizes power.
It’s one thing people have lengthy fantasized about for ourselves: If we ever go away this planet and journey by means of house, we’ll expertise our personal time of shortage. Science fiction writers are inclined to think about a mysterious know-how that retains people in stasis, capable of survive centuries of silence earlier than rising into a brand new life. For now, it’s a know-how that’s out of attain.
However as scientists work to know states like torpor and hibernation, tantalizing particulars about how the mind controls metabolism have emerged. Researchers reported in the journal Nature Metabolism on Thursday that they’ve been capable of ship mice right into a torpor-like state by focusing on a particular a part of the mind with brief bursts of ultrasound. It’s unclear precisely why ultrasound has this impact, however the findings counsel that finding out the neural circuits concerned in torpor may reveal methods to control metabolism past the lab.
Ultrasound gadgets, which generate high-frequency sound waves, are greatest recognized for his or her imaging powers. However they’ve additionally been utilized by neuroscientists to stimulate neurons. Accurately tuned, the soundwaves can journey deep into the mind, mentioned Hong Chen, a professor of biomedical engineering at Washington College in St. Louis and an writer of the brand new paper. In 2014, William Tyler, now on the College of Alabama, Birmingham, and his colleagues utilized ultrasound to a sensory area within the mind and located that it enhanced a topic’s sense of contact. A rising physique of labor is exploring ultrasound as a therapy for problems like despair and nervousness.
Interested in a mind area that regulates physique temperature in rodents, Dr. Chen and her colleagues constructed tiny ultrasound mouse caps. The gadgets skilled six bursts, every consisting of 10 seconds of ultrasound, on the chosen space of the rodent’s mind (Researchers who examine the mind with ultrasound should tune their gadgets rigorously to keep away from warmth that may injury tissues).
The mice, the researchers observed, stopped transferring. Measurements of their physique temperature, coronary heart price and metabolism confirmed a pronounced dip. The mice stayed on this state for about an hour after the ultrasound bursts, after which returned to regular.
Trying nearer at neurons concerned on this response, the researchers recognized a protein of their mind membranes, TRPM2, that seems to be delicate to ultrasound; when the researchers lowered ranges of the protein in mice, the mice turned proof against ultrasound’s results.
That’s an necessary step towards understanding how ultrasound impacts neurons, mentioned Davide Folloni, a researcher on the Icahn College of Medication at Mount Sinai in New York Metropolis, who research the mind utilizing ultrasound; the main points have largely been elusive.
But it surely’s additionally doable that warmth generated by the ultrasound, and never simply the ultrasound itself, is affecting TRPM2 within the brains of mice, some extent that was raised by Masashi Yanagisawa and Takeshi Sakurai of the College of Tsukuba in Japan, in separate interviews. The 2 have studied neurons on this mind space, and their connection to states of torpor. Each could also be in play, Dr. Chen mentioned.
In one of the crucial tantalizing components of the examine, the researchers checked to see whether or not animals that don’t usually expertise torpor — rats — behaved in another way when the mind area was stimulated with ultrasound. Certainly, they appeared to decelerate, and their physique temperatures dropped.
“We now have to watch out with the rat knowledge,” Dr. Chen cautions. Thus far, they solely have details about temperature, not metabolic price and different components.
May ultrasound be a option to change the metabolism of bigger animals with no historical past of torpor, like people? It’s an intriguing concept, Dr. Sakurai mentioned.
“At this stage,” he mentioned, “it stays an unanswered query.”