Males who spend time in low temperatures prior to mating will produce offspring with more active brown adipose tissue, according to new research in mice.
This quite literally means that the environmental impact a father experiences is passed on to his offspring.
Anyone with lots of brown adipose tissue, or brown fat, can count themselves lucky: this tissue—which is found in some people under the tongue, around the collarbone and along the spine—helps them to use up excess energy. The more brown fat someone has and the more active it is, the lower their risk seems to be of becoming overweight or developing metabolic disorders.
Passing it on
The researchers reached their conclusion by studying mice, but in humans there is also a correlation between the ambient temperature before conception and the prevalence of brown fat.
The researchers analyzed computed tomography images of 8,400 adult patients. They found that people born between July and November (meaning they were conceived in the colder half of the year) have significantly more active brown adipose tissue than people born between January and June (who were conceived in the hotter half of the year).
“Taking a plunge in cold water or spending a short time lying on a block of ice probably won’t be enough.”
To follow up on this correlation, the researchers conducted studies in mice. They kept the animals at either a moderate (23° Celsius, or around 74° Fahrenheit) or a cool (8° Celsius, or around 47° Fahrenheit) temperature and allowed them to mate.
An analysis of the offspring showed that the temperature researchers kept females at before and after mating had no impact on levels of brown adipose tissue in their offspring, but this was not the case for males: the offspring of males kept in a cool environment for several days prior to mating had more active brown adipose tissue than those of males kept in a temperate environment.
In addition, the offspring of males kept in cool conditions were better protected against excess weight—they gained less weight on a high-fat diet—and against metabolic disorders.
Using in vitro fertilization and studies on sperm, the researchers were able to demonstrate that the information about the ambient temperature a father experienced is passed on to his offspring via his sperm’s epigenetic programming. This refers to changes made in the particular pattern of chemical markings (methylations) on the DNA.
It has been known for several years that certain environmental factors can modify the epigenetic pattern of sperm. What the scientists have now shown for the first time is that ambient temperature can also lead to epigenetic changes.
Brown fat cells burn energy to produce body heat, so mice with more brown adipose tissue are better at regulating their body temperature in low ambient temperatures.
“Perhaps this protects them from icy cold, which might explain why this epigenetic mechanism has been selected for, in the course of evolution,” says Christian Wolfrum, professor at ETH Zurich.
The results that the researchers obtained from their studies of mice and men agree with earlier observations that people in cold regions have particularly high levels of brown adipose tissue.
“Until now, the assumption was that this had something to do with the temperatures people experienced during their lifetime,” Wolfrum says, “but our observations suggest that temperatures prior to conception might also affect later levels of brown fat.”
Wolfrum points out another correlation: Average indoor temperatures have increased in recent decades, at least in the United States, where research has been done on this topic. What’s more, studies have shown that the temperature people experience at home correlates with how overweight they are. “Our work highlights a possible mechanism for this,” Wolfrum says.
Does this mean couples trying for children should be advised to have the man go for a swim in a cold lake or even play in the snow before having relations?
“Before we can give that kind of advice, we need to study the correlation in people more closely,” Wolfrum says, “but it is likely that the exposure to cold needs to persist over a longer period for it to have an effect on epigenetic programming. Taking a plunge in cold water or spending a short time lying on a block of ice probably won’t be enough.”
The scientists are now planning a study that will compare the epigenetic programming of human sperm in summer and winter.
Researchers from University Hospital Zurich also contributed to the work.
Source: ETH Zurich