BA.2 is like Omicron's sister. Here's what we know about it so far
Cases of the SARS-CoV-2 variant Omicron have escalated globally over the past two months, with many countries experiencing peaks higher than previous variants.
Now we're seeing cases of a subvariant of Omicron, known as BA.2, emerge in Australia and more than 50 countries.
Cases of COVID-19 in Australia appear to be finally trending downwards, but a new variant called BA.2 has experts on alert. #7NEWS https://t.co/0MGdrvURVD
— 7NEWS Melbourne (@7NewsMelbourne) February 2, 2022
Rather than a daughter of the Omicron variant BA.1 (or B.1.1.529), it's more helpful to think of BA.2 as Omicron's sister.
Remind me, what is a variant?
Viruses, and particularly RNA viruses such as SARS-CoV-2, make lots of mistakes when they reproduce. They can't correct these mistakes, so they have a relatively high rate of errors, or mutations, and are constantly evolving.
When the genetic code of a virus changes as a result of these mutations, it's referred to as a variant.
Omicron is a 'highly divergent' variant, having accumulated more than 30 mutations in the spike protein. This has reduced the protection of antibodies from both prior infection and vaccination, and increased transmissibility.
When do health authorities worry about a new variant?
If changes in the genetic code are thought to have the potential to impact properties of the virus that make it more harmful, and there's significant transmission in multiple countries, it will be deemed a 'variant of interest'.
If a variant of interest is then shown to be more infectious, evade protection from vaccination or previous infection, and/or impact the performance of tests or treatments, it is labelled a 'variant of concern'.
Read more: What we know now about COVID immunity after infection – including Omicron and Delta variants
The World Health Organization (WHO) classified Omicron a variant of concern on November 26 because of its potential to cause higher reinfection rates, increased transmissibility and reduced vaccine protection.
What is the Omicron lineage?
A lineage, or subvariant, is a genetically closely related group of virus variants derived from a common ancestor.
The Omicron variant comprises three sublineages: B.1.1.529 or BA.1, BA.2 and BA.3.
While the WHO has not given BA.2 a separate classification, the United Kingdom has labelled BA.2 a variant 'under investigation'. So not yet a variant of interest or concern, based on WHO definitions, but one that is being watched closely.
This is not the first variant to have sublineages. Late last year, Delta 'plus' or AY.4.2 was reported widely, then Omicron came along.
What's the 'Delta plus' variant? And can it escape vaccines? I (@DrSunitKSingh) explained https://t.co/l4LBjlWMnu via @ConversationEDU
— Prof. Sunit K. Singh (@DrSunitKSingh) July 2, 2021
What's different about BA.2?
While the first sequences of BA.2 were submitted from the Philippines - and we have now seen thousands of cases, including in the United States, the UK and some in Australia - its origin is still unknown.
The exact properties of BA.2 are also still being investigated. While there is no evidence so far that it causes more severe disease, scientists do have some specific concerns.
1. It's harder to differentiate
A marker that helped differentiate Omicron (BA.1) from other SARS-CoV-2 variants on PCR tests is the absence of the the S gene, known as 'S gene target failure'. But this is not the case for BA.2.
The inability to detect this lineage in this way has led some to label it the 'stealth subvariant'.
But it doesn't mean we can't diagnose BA.2 with PCR tests. It just means when someone tests positive for SARS-CoV-2, it will take us a little longer to know which variant is responsible, through genome sequencing. This was the case with previous variants.
2. It may be more infectious
Perhaps most concerning is emerging evidence BA.2 may be more infectious than the original Omicron, BA.1.
A preliminary study from Denmark, where BA.2 has largely replaced BA.1, suggests BA.2 increases unvaccinated people's susceptibility of infection by just over two times when compared to BA.1.
The researchers suggest fully vaccinated people are 2.5 times more susceptible to BA.2 than BA.1, and those who were booster vaccinated are nearly three times more susceptible.
Danish household study:
— Infectious Diseases (@InfectiousDz) January 31, 2022
BA.2 inherently more transmissible than BA.1
Immune evasive
Reduces vaccine protection against infection
Does not increase transmission from vaccinated persons with breakthrough infectionshttps://t.co/aX1V94sD7n
The study examined more than 2,000 primary household cases of BA.2 to determine the number of cases that arose during a seven-day follow up period.
The researchers also estimated the secondary attack rate (basically, the probability infection occurs) to be 29% for households infected with BA.1 versus 39% for those infected with BA.2.
This Danish study is still a preprint, meaning it's yet to be checked by independent scientists, so more research is needed to confirm if BA.2 is truly more infectious than BA.1.
We're likely to see new variants
We should expect new variants, subvariants and lineages to continue to emerge. With such high levels of transmission, the virus has abundant opportunity to reproduce and for errors or mutations to continue to arise.
The way to address this, of course, is to try to slow transmission and reduce the susceptible pool of hosts in which the virus can freely replicate.
Strategies such as social distancing and mask-wearing, as well as increasing vaccination rates globally, will slow the emergence of new variants and lineages.
Read more: Are new COVID variants like Omicron linked to low vaccine coverage? Here's what the science says
This article is republished from The Conversation under a Creative Commons license. Read the original article, published on February 3, 2022.
Disclosure statement
Paul Griffin does not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.