Spreading version of Omicron resists all but one drug; T cell defense vs
Omicron deficient in some
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 [February 12, 2022]
By Nancy Lapid
(Reuters) - The following is a summary of
some recent studies on COVID-19. They include research that warrants
further study to corroborate the findings and that has yet to be
certified by peer review.
Spreading version of Omicron resists all but one new drug
Until Friday, just one COVID-19 antibody drug has been effective against
the Omicron variant - sotrovimab from Vir Biotechnology and GSK - and
that drug is unlikely to do as well against at least one new version of
the variant spreading globally, new research suggests.
An antibody drug approved on Friday by the U.S. Food and Drug
Administration does show promise when tested against "sublineages," or
subvariants, of Omicron, the research found.
The World Health Organization is monitoring several Omicron subvariants.
Data posted on Wednesday on bioRxiv ahead of peer review showed that the
rapidly spreading BA.2 subvariant "exhibited marked resistance" to
sotrovimab in lab experiments, researchers said. Britain-based GSK
announced on Thursday, without formally releasing any data, that its
drug does retain the ability to neutralize BA.2 in a test tube. David Ho
of Columbia University, senior author of the bioRxiv report, said his
research "also showed that sotrovimab still has activity against BA.2,
consistent with their statement. But its activity is down substantially,
27-fold as stated in our preprint." In repeat experiments, the drop was
even more pronounced, he said of testing done after the paper was
submitted.
The drug approved on Friday - bebtelovimab, from Eli Lilly, remained
potent in neutralizing all Omicron subvariants, Ho's team said.
Two antibody drugs from AstraZeneca - cilgavimab and tixagevimab - did
remain effective against BA.2, but they are only approved for preventing
COVID-19 in certain circumstances, not for treating it.
Second-line Omicron immune defense deficient in some people
T cells, a key component of the body's immune defenses, may not work
well against the Omicron variant in some people, according to new
research.
T cells learn to recognize germs either during natural infection or
after vaccination. When invading organisms slip past antibodies, T cells
launch an attack to prevent severe illness. Researchers studying 76
volunteers found that most individuals' T cells continued to defend
against Omicron even when their antibodies did not, regardless of the
source of the antibodies, including from booster shots. But about 20% of
people had more than a 50% reduction in their T cell response to
Omicron, compared to responses to earlier variants, the researchers
reported in Cell. This "surprising" finding might be due to genetic
differences, said Dr. Gaurav Gaiha of the Ragon Institute of MGH, MIT
and Harvard.
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A woman wearing a face mask and a face shield lines up among people
at a makeshift testing site for the coronavirus disease (COVID-19)
following the outbreak, in Hong Kong, China February 11, 2022.
REUTERS/Joyce Zhou
 What the decrease in T cell
recognition of Omicron means is unclear, "but it is possible that
these individuals will have reduced protection against severe
disease," Gaiha said. It could also mean SARS-CoV-2 "can evolve to
escape even T cells, so we have to continue work on vaccines that
may be resistant to future variants, and keep taking sensible
precautions like mask-wearing and testing," added Gaiha, who noted
that vaccine boosters "dramatically increased the T cell response to
Omicron by 20 times."
New or persistent health problems follow COVID-19 in seniors
Older adults infected with SARS-CoV-2 before vaccines were available
were at higher-than-average risk for needing medical care for a
persistent or new problem in the months afterward, according to a
report published on Wednesday in The BMJ.
Researchers studied nearly 133,000 Americans over age 65 who had
coronavirus infections in 2020 and a roughly equal number of closely
matched uninfected individuals. Nearly one-in-three COVID-19
patients sought medical attention at least three weeks after
diagnosis for a new or persistent condition, an 11% higher rate than
researchers saw in the comparison group. The COVID-19 patients were
at increased risk for respiratory failure (an additional 7.6 cases
per 100 people), fatigue (an extra 5.7 per 100 people), high blood
pressure (an extra 4.4 per 100 people), and mental health diagnoses
(an extra 2.5 per 100 people), the researchers found. When the COVID
patients were compared to people previously infected with other
respiratory viruses, like flu, only new problems with respiratory
failure, dementia, and fatigue were more common after COVID-19.
Although hospitalized patients were at higher risk for new or
persistent problems, "the larger population... who did not require
admission to hospital for COVID-19 were still at risk," the
researchers said.
(Reporting by Nancy Lapid; Editing by Bill Berkrot and Grant McCool)
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