Distinct immune, hormone responses shed light on mysteries of long COVID

People who have experienced symptoms for months or longer after being infected exhibit different immune and hormonal responses to the virus, a new study finds.
A man with his head surrounded by a cloud

Illustration created with generative AI (Michael S. Helfenbein)

People who have experienced brain fog, confusion, pain, and extreme fatigue for months or longer after being infected with the COVID-19 virus exhibit different immune and hormonal responses to the virus than those not diagnosed with long COVID, according to a new study by researchers at Yale School of Medicine and Icahn School of Medicine at Mount Sinai.

The discovery of these distinct responses can help scientists for the first time identify the causes — and potentially explore cures — for the often debilitating illness that has afflicted millions of people worldwide. An estimated 7.5% of people infected with the SARS-CoV-2 virus in the U.S. later suffer from long COVID.

If you are a doctor doing routine lab work on these patients, you are not going to find these signals,” said Akiko Iwasaki, Sterling Professor of Immunobiology at Yale and co-senior author of the paper.

The findings were published Sept. 25 in the journal Nature.

For the study, researchers analyzed blood samples from 268 people who had either experienced long COVID symptoms for an average of one year; had been infected with COVID-19 but had fully recovered; or had no known prior infections. The researchers observed significant differences between the circulating antibodies and other immune system cells among those with long COVID and the other groups of patients.

Among those who had exhibited long COVID researchers also found increased circulation of antibodies that help the body fight non-COVID-19 viruses, particularly those known to defend against Epstein-Barr virus, a human herpesvirus that has been linked with many cancers. In addition, these patients had markedly lower levels of cortisol, a steroid hormone released by the adrenal glands in times of stress.

While these findings reveal key biological processes associated with long COVID, the complexity of individual responses means developing therapies to treat the ailment will be difficult, the authors say.

There is no ‘silver bullet’ for treating long COVID, because it is an illness that infiltrates complex systems such as the immune and hormonal regulation,” said co-senior author David Putrino, a professor of rehabilitation and human performance at Icahn Mount Sinai and director of the Cohen Center for Recovery From Complex Chronic Illness.

The new insights, however, provide important clues that may help in developing new diagnostics and therapies, Iwasaki said.

Once we have more information on these signals, we can start to think about designing the right trials to treat this condition,” she said.

Co-senior authors are Aaron Ring, an associate professor at Fred Hutchinson Cancer Center who conducted the research while at Yale School of Medicine, and David van Dijk of the Icahn School of Medicine.

Jon Klein, Jillian Jaycox, Rahul Dhodapkar, Peiwin Lu, Jeff Gehlhausen, and Alexandra Tabachnikova, all from Yale, are co-lead authors of the research.

Share this with Facebook Share this with X Share this with LinkedIn Share this with Email Print this
Part of the In Focus Collection: Yale responds to COVID-19

Media Contact

Bess Connolly : elizabeth.connolly@yale.edu,