As our
lifestyles become increasingly demanding, we build our lives around
artificially divided days and nights that accommodate the need to work night
shifts, stay up all night, or travel between continents. But this impacts our
natural body clocks, with unwanted consequences.
If we tamper with our circadian rhythms — set by the body clocks
that regulate all the automated processes that take place inside the body — we
tamper with our health.
Our body clocks control metabolism, contributing to the proper
functioning of every organ in our bodies.
However, if we regularly bypass our natural day to night cycles
— by working through the night, traveling long-distance, or spending too much
time looking at bright screens in the dark — our body clocks become disoriented
and stop functioning correctly.
New research from the University of Southern California in Los
Angeles, The Scripps Research Institute in La Jolla, CA, and Nagoya University
in Japan identifies a key mechanism that links the dysregulation of circadian
rhythms with a greater exposure to chronic diseases.
"Epidemiological studies are consistently revealing more
and more connections between modern lifestyles and our internal biological clock,
and when those two clash, it can lead to development of diseases such as obesity and breast
cancer," notes study author Steve Kay, Provost Professor of
Neurology, Biomedical Engineering and Biological Sciences at the University of
Southern California.
However, he adds, "This study goes beyond the epidemiology
to explore the mechanisms of circadian disruption as a risk factor for certain
diseases."
The new study, which appears in PNAS, has
identified a protein that plays a dual role in the context of the circadian
rhythm, and which explains how disrupted body clocks can lead to disease.
Disrupting a delicate balance
Kay and colleagues focused on HNF4A, a protein found in cell
nuclei, which previous research suggested is involved in the early development of the liver,
kidney, and large intestine.
When the researchers analyzed liver and colon cells taken from
mouse and human tissue, they found that HNF4A interacts with the circadian
clocks of these cells in complex ways. More specifically, HNF4A can block two
other proteins — CLOCK and BMAL1 — that help regulate circadian rhythms in
mammals.
"Inside the cell, the cogs of the clock are universal, but
the hands of the clock are specific to each organ, so how the clock does its
work in each cell is different," explains Kay.
HNF4A, it turns out, responds to chemical signals within the
cell and acts out on other proteins in accordance. This means that when this
protein's activity goes haywire, normal metabolic processes are also disrupted,
leaving the organs more exposed to disease.
"So, in the liver,
we looked at tissue-specific proteins and found that HNF4A is tied to the
circadian clock, is regulated by the clock and cycles with the clock and, in
turn, regulates the clock. That's the new finding here, and it's a big jump
forward."
Steve Kay
As the study's first author, Meng Qu, also explains,
"Mutations in [the] HNF4A gene are known to contribute
to a rare hereditary form of diabetes called MODY1, and its
expression dysregulation has been closely linked to liver
cancer, both with mechanisms we don't fully understand."
"Our discovery suggests the clock disruption could be a
potential mechanism and provides a bridge between circadian regulation and
development of disease," she adds.
Modern lifestyles often demand that we live by irregular
rhythms, and the researchers warn that this can contribute to the disruption of
sensitive mechanisms, including the ones in which proteins, such as HNF4A are
involved.
"Humans are not evolved for night shifts,
nighttime lights, and intercontinental travel. Modern-life challenges to our circadian
system present a long-term threat to our health," says Kay.
Discoveries such as the one highlighted in the current study can
offer us a more detailed picture of how disrupted body clocks can affect health
outcomes.
"Now we can see how HNF4A is a new chapter in a book that
was mostly blank pages, so there's a story beginning there as we fill in a huge
blank spot," Kay encourages.
Source: Medical News Today
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