What to Know About the 'FLiRT' Variants of COVID-19
A COVID-19 test and a mask are displayed at a home in Washington, D.C., on Jan. 5, 2024. Credit - Carolyn Van Houten/The Washington Post—Getty Images
The COVID-19 lull in the U.S. may soon come to an end, as a new family of SARS-CoV-2 variants—nicknamed “FLiRT” variants—begins to spread nationwide.
These variants are distant Omicron relatives that spun out from JN.1, the variant behind the surge in cases this past winter. They’ve been dubbed “FLiRT” variants based on the technical names for their mutations, one of which includes the letters “F” and “L,” and another of which includes the letters “R” and “T.”
Within the FLiRT family, one variant in particular has risen to prominence: KP.2, which accounted for about 25% of new sequenced cases during the two weeks ending Apr. 27, according to data from the U.S. Centers for Disease Control and Prevention (CDC). Other FLiRT variants, including KP.1.1, have not become as widespread in the U.S. yet.
Researchers are still learning about the FLiRT variants, and many questions remain about how quickly they’ll spread, whether they’ll cause disease that’s more or less severe than what we’ve seen previously, and how well vaccines will stand up to them. Here’s what we know so far.
Is another COVID-19 wave coming?
Despite KP.2's rise in the U.S., it’s too soon to tell whether the FLiRT family will be responsible for a major surge in cases, says Dr. Eric Topol, executive vice president at Scripps Research, who wrote about the FLiRT variants in a recent edition of his newsletter. For now, the amount of SARS-CoV-2 virus in U.S. wastewater remains “minimal,” according to the CDC, and hospitalizations and deaths have also continued to decline steadily since their recent peaks in January. At the global level, case counts rose from early to mid-April, but remain far lower than they were a few months ago.
KP.2 and its relatives will likely cause an uptick in cases, but “my hunch is it won’t be a big wave,” Topol says. “It might be a ‘wavelet.’” That’s because people who were recently infected by the JN.1 variant seem to have some protection against reinfection, Topol says, and the virus hasn’t mutated enough to become wildly different from previous strains. A recent study from researchers in Japan, which was posted online before being peer-reviewed, also found that KP.2 is less infectious than JN.1.
Do vaccines protect against KP.2 and other FLiRT variants?
Vaccines still provide good protection against COVID-19-related hospitalization and death. But two preliminary studies—the one from Japan and another from researchers in China, which was also posted online before being peer-reviewed—suggest the FLiRT variants may be better at dodging immune protection from vaccines than JN.1 was.
“That isn’t good,” Topol says, especially since many people who got the most recent booster—roughly 30% of adults in the U.S.— got it last fall, meaning their protection has begun to wane.
In an Apr. 26 statement, the World Health Organization recommended basing future vaccine formulations on the JN.1 lineage, since it seems the virus will continue to evolve from that variant. The most recent booster was based on an older strain, XBB.1.5.
How can I stay safe from new COVID-19 variants?
The virus continues to evolve, but public-health advice remains the same: stay up-to-date on vaccines, test before gatherings, stay home when you're ill, and consider masking and avoiding crowded indoor areas, especially when lots of COVID-19 is going around.
Write to Jamie Ducharme at jamie.ducharme@time.com.