The latest briefing document on COVID variants from the UK Health Security Agency (UKHSA) noted that during the week beginning August 14, BA.4.6 accounted for 3.3 percent of samples in the UK. It has since grown to make up around 9 percent of sequenced cases.
Similarly, according to the Centers for Disease Control and Prevention, BA.4.6 now accounts for more than 9 percent of recent cases across the US. The variant has also been identified in several other countries around the world.
So what do we know about BA.4.6, and should we be worried? Let’s take a look at the information we have so far.
It is not entirely clear how BA.4.6 has emerged, but it’s possible it could be a recombinant variant. Recombination happens when two different variants of SARS-CoV-2 (the virus that causes COVID-19) infect the same person, at the same time.
While BA.4.6 will be similar to BA.4 in many ways, it carries a mutation to the spike protein, a protein on the surface of the virus which allows it to enter our cells. This mutation, R346T, has been seen in other variants and is associated with immune evasion, meaning it helps the virus to escape antibodies acquired from vaccination and prior infection.
Severity, infectiousness and immune evasion
Fortunately, omicron infections generally cause less serious illness, and we’ve seen fewer deaths with omicron than with earlier variants. We would expect this to apply to BA.4.6 too. Indeed, there have been no reports yet that this variant is causing more severe symptoms.
But we also know that omicron subvariants tend to be more transmissible than previous variants. BA.4.6 appears to be even better at evading the immune system than BA.5, the currently dominant variant. Although this information is based on a preprint (a study that is yet to be peer-reviewed), other emerging data supports this.
According to the UKHSA’s briefing, early estimates suggest BA.4.6 has a 6.55 percent relative fitness advantage over BA.5 in England. This indicates that BA.4.6 replicates more quickly in the early stages of infection and has a higher growth rate than BA.5.
The relative fitness advantage of BA.4.6 is considerably smaller than that of BA.5 over BA.2, which was 45 percent to 55 percent.
The University of Oxford has reported that people who had received three doses of Pfizer’s original COVID vaccine produce fewer antibodies in response to BA.4.6 than to BA.4 or BA.5. This is worrying because it suggests that COVID vaccines might be less effective against BA.4.6.
The capacity of BA.4.6 to evade immunity may however be addressed to a degree by the new bivalent boosters, which target omicron specifically, alongside the original strain of SARS-CoV-2. Time will tell.
Vaccination is key
The emergence of BA.4.6 and other new variants is concerning. It shows the virus is still very much with us, and is mutating to find new ways to overcome our immune response from vaccination and previous infections.
But vaccination continues to offer good protection against severe disease, and is still the best weapon we have to fight COVID. The recent approval of bivalent boosters is good news. Beyond this, developing multivalent coronavirus vaccines that target multiple variants could provide even more durable protection.
A recent study showed that a multivalent coronavirus vaccine administered through the nose elicited a strong immune response against the original strain of SARS-CoV-2, as well as two variants of concern, in mouse models.
Close monitoring of new variants including BA.4.6 is pressing, as they could lead to the next wave of COVID pandemic. For the public, it will pay to stay cautious, and comply with any public health measures in place to prevent the spread of what remains a very contagious virus.