Drugmakers rush to test whether vaccines stop coronavirus variant

By John Miller and Patricia Weiss

ZURICH/FRANKFURT (Reuters) – Drug makers including BioNTech and Moderna are scrambling to test their COVID-19 vaccines against the new fast-spreading variant of the virus that is raging in Britain, the latest challenge in the breakneck race to curb the pandemic.

Ugur Sahin, chief executive of Germany’s BioNTech which with partner Pfizer took less than a year to get a vaccine approved, said on Tuesday he needs another two weeks to know if his shot can stop the mutant variant of the virus.

Moderna expects immunity from its vaccine to protect against the variant and is performing more tests in coming weeks to confirm, the company said in a statement to CNN. Moderna did not immediately respond to Reuters’ requests for comment.

The mutation known as the B.1.1.7 lineage may be up to 70% more infectious and more of a concern for children. It has sown chaos in Britain, prompting a wave of travel bans that are disrupting trade with Europe and threatening to further isolate the island country.

Sahin said there are nine mutations on the virus.

While he does not believe any are significant enough to skirt the protection afforded by BioNTech’s mRNA vaccine, which was approved by the European Union on Monday, he said another 14 days or so of study and data collection are needed before offering a definitive answer.

“Scientifically it is highly likely that the immune response by this vaccine can also deal with this virus variant,” he said on a call with reporters.

“The vaccine contains more than 1,270 amino acids, and only 9 of them are changed (in the mutant virus). That means that 99% of the protein is still the same.”

Germany’s CureVac said it does not expect the variant to affect the efficacy of its experimental shot, which is based on the same messenger RNA (mRNA) technology used by Pfizer-BioNTech.

It started late stage clinical trials on its vaccine candidate last week and is constantly reviewing variants, which the company said are common as viruses spread.

Even though there are multiple mutations, BioNTech’s Sahin said, most of the sites on the virus that are recognized by the body’s T-cell response are unchanged, and multiple antibody binding sites are also conserved.

MRNA ADVANTAGE

In the event that the variant presents vaccine developers with an unexpected challenge, an advantage of mRNA is that scientists can quickly re-engineer genetic material in the shot to match that of the mutated protein, whereas modifying traditional vaccines would require extra steps.

“In principle, the beauty of the mRNA technology is we can directly start to engineer a vaccine which completely mimics this new mutation,” Sahin said.

“We could be able to provide a new vaccine technically within six weeks. Of course, this is not only a technical question. We have to deal with how regulators… would see that.”

Britain’s chief scientific adviser Patrick Vallance said on Saturday vaccines appeared to be adequate in generating an immune response to the variant of the coronavirus.

The World Health Organization (WHO) said on Tuesday it will convene a meeting of members to discuss strategies to counter the mutation.

Exclusive: New global lab network will compare COVID-19 vaccines head-to-head

By Kate Kelland

LONDON (Reuters) – A major non-profit health emergencies group has set up a global laboratory network to assess data from potential COVID-19 vaccines, allowing scientists and drugmakers to compare them and speed up selection of the most effective shots.

Speaking to Reuters ahead of announcing the labs involved, Melanie Saville, director of vaccine R&D at the Coalition for Epidemic Preparedness Innovations (CEPI), said the idea was to “compare apples with apples” as drugmakers race to develop an effective shot to help control the COVID-19 pandemic.

The centralized network is the first of its kind to be set up in response to a pandemic.

In a network spanning Europe, Asia and North America, the labs will centralize analysis of samples from trials of COVID-19 candidates “as though vaccines are all being tested under one roof”, Saville said, aiming to minimize the risk of variation in results.

“When you start off (with developing potential new vaccines) especially with a new disease, everyone develops their own assays, they all use different protocols and different reagents – so while you get a readout, the ability to compare between different candidates is very difficult,” she told Reuters.

“By taking the centralized lab approach … it will give us a chance to really make sure we are comparing apples with apples.”

The CEPI network will initially involve six labs, one each in Canada, Britain, Italy, the Netherlands, Bangladesh and India, Saville said.

Hundreds of potential COVID-19 vaccines are in various stages of development around the world, with shots developed in Russia and China already being deployed before full efficacy trials have been done, and front-runners from Pfizer, Moderna and AstraZeneca likely to have final-stage trial results before year-end.

Typically, the immunogenicity of potential vaccines is assessed in individual lab analyses, which aim to see whether biomarkers of immune response – such as antibodies and T-cell responses – are produced after clinical trial volunteers receive a dose, or doses, of the vaccine candidate.

But with more than 320 COVID-19 vaccine candidates in the works, Saville said, the many differences in data collection and evaluation methods are an issue.

As well as potential variations in markers of immunity, there are differences in how and where samples are collected, transported and stored – all of which can impact the quality and usefulness of the data produced, and make comparisons tricky.

And with a range of different vaccine technologies being explored – from viral vector vaccines to ones based on messenger RNA – standard evaluation of their true potential “becomes very complex”, she said.

“With hundreds of COVID-19 vaccines in development … it’s essential that we have a system that can reliably evaluate and compare the immune response of candidates currently undergoing testing,” she said.

By centralizing the analysis in a lab network, much of what Saville called the “inter-laboratory variability” can be removed, allowing for head-to-head comparisons.

CEPI says all developers of potential COVID-19 vaccines can use the centralized lab network for free to assess their candidates against a common protocol. For now, the network will assess samples from early-stage vaccine candidate testing and first and second stage human trials, but CEPI said it hoped to expand its capacity to late stage (Phase III) trial data in the coming months.

Results produced by the network will be sent back to the developer, with neither CEPI nor the network owning the data.

CEPI itself is co-funding nine of the potential COVID-19 vaccines in development, including candidates from Moderna, AstraZeneca, Novavax and CureVac.

(Reporting by Kate Kelland, editing by Mark Potter)

Delivering super-cooled COVID-19 vaccine a daunting challenge for some countries

By Matthias Inverardi and Ludwig Burger

FRANKFURT (Reuters) – Getting a coronavirus vaccine from manufacturing sites to some parts of the world with rural populations and unreliable electricity supply will be an immense challenge, given the need to store some vials at temperatures as low as minus 80 degrees Celsius (-112 Fahrenheit), Deutsche Post warned on Tuesday.

The German logistics firm said that distribution of an eventual vaccine across large parts of Africa, South America and Asia would require extraordinary measures to keep deliveries of so-called mRNA vaccines refrigerated at Antarctic-level temperatures.

Companies developing vaccines requiring exceptional cold storage, such as Moderna and CureVac, are working hard to make their injections last longer in transit.

The novel class of mRNA vaccines is among the furthest advanced in a field of 33 immunization shots currently being tested on humans globally, but they may need to be cooled at minus 80 degrees Celsius.

But upgrading cold storage infrastructure in regions outside the 25 most advanced countries, home to one third of the global population, will pose an immense challenge, said Deutsche Post in its study, conducted with consultancy firm McKinsey.

Vaccine developers Translate Bio and Moderna said in June they are working to produce evidence in time for the roll-out that their respective products can be shipped and stored at less extreme temperatures.

A spokesman for CureVac said its vaccine candidate is based on an experimental rabies vaccine which has already been shown to keep its molecular structure when stored in a regular fridge for months. Tests are underway to show the COVID-19 product has the same durability and the company is confident the data will be “competitive”, he added.

Deutsche Post said that even if the vaccine cold chain requires temperatures of only minus 8 degrees Celsius the share of the world’s population with reliable access to it increases only to about 70%, with substantial parts of Africa at risk of missing out.

“We anticipate 10 billion vaccine doses will have to be distributed across the world, and that includes regions that don’t have motorway access every five miles,” Katja Busch, Chief Commercial Officer of Deutsche Post’s DHL global forwarding unit, told Reuters.

(Additional reporting by Lisa Baertlein, editing by Louise Heavens)