Tag Archives: Christina Benjaminsen

Bioprospecting yields sunscreen ingredient fromTrondheim Fjord microorganism

Norwegian business, Promar, has taken out patents based on research showing that a bacterium living in the Trondheim Flord has a trait much prized by makers of sunscreens, from an Aug. 6, 2013 news item on ScienceDaily,

Norwegian researchers have recently discovered a microorganism with very special properties — a bacteria living in Trondheim Fjord with the Latin name Micrococcus luteus. It possesses a trait which is rare and highly sought-after by medical science and the cosmetics industry — a pigment which can absorb long-wavelength UV radiation (in the range 350-475 nanometres).

The researchers are from SINTEF (Norwegian: Stiftelsen for industriell og teknisk forskning), which bills itself as the largest independent research organization in Scandinavia. Their July 25, 2013 news release by Christina Benjaminsen, which originated the news item, explains why this discovery is causing some excitement,

Long-wavelength UV radiation is linked to many forms of skin cancer and malignant melanomas. Currently, there are no sunscreens on the market able to filter out this type of radiation.

However, the Norwegian company Promar AS has taken out patents for both the manufacture and use in future sunscreens of a light-filtering substance extracted from this bacterium. This has been achieved with the help of researchers at SINTEF.

Researchers at SINTEF have what amounts to a library of microorganisms after years of bioprospecting (exploring for organisms with traits useful in industrial applications), from the SINTEF nrews release,

The backdrop to this project involved activities taking place at SINTEF and NTNU [Norwegian University of Science and Technology] by which we collected a variety of different microorganisms from the water surface in Trondheim Fjord. These organisms had one thing in common. They possessed a variety of naturally-occurring light-absorbing pigments. “This is why they are very colourful”, says Trygve Brautaset, Project and Research Manager at SINTEF. The end result was an entire “library” of such microorganisms.

At about the same time, the Norwegian company Promar AS had been working on the idea of manufacturing a substance with a property lacking in sunscreen products currently on the market – the ability to filter out long-wavelength UV radiation.

This is why SINTEF and NTNU were contracted to look for a pigment with this trait. After investigating hundreds of different bacteria, the researchers found Mirococcus luteus in “the library”. It ticked all the boxes. The microscopic organism, no bigger than 1-2 micrometres across, was found to contain a particular carotenoid, known to organic chemists as sarcinaxanthin. This pigment absorbs sunlight at just the wavelength which Promar wanted to provide protection against. By adding sarcinaxanthin to sunscreen, harmful solar radiation is absorbed by the cream before it reaches the skin. However, commercial production of the carotenoid required some tricky genetic engineering.

The process of isolating the particular pigment took two years, from the SINTEF news release,

Firstly, the pigments produced by the bacteria had to be characterized using a variety of chemical techniques designed to identify the desired sarcinaxanthin carotenoid. Subsequently, the genes used by the bacterium to synthesise sarcinaxanthin had to be isolated. Finally, the research team had to transfer all the genes into a host bacterium. The aim was to create an artificial bacterium able to produce sarcinaxanthin sufficiently effectively to be of commercial interest.

“After about two years’ intensive work SINTEF had the first examples of this bacterium ready”, says Brautaset. “We have now synthesised a sarcinaxanthin-producing bacterium which can be cultivated.

We will now be carrying out tests to see if we can produce it in so-called fermenters (cultivation tanks) in the laboratory. This represents an excellent method for the effective production of sarcinaxanthin in volumes large enough to make industrial applications possible”, he says.

UVAblue is the commercial name that’s been given to this new synthetically derived version of sarcinaxanthi. This new substance has aroused much interest,

… “We have been in France talking to many of the world’s largest cosmetics manufacturers”, he says. “Everyone we talked to was very interested in making use of this type of sunscreen factor in their products”, says Goksøyr [Managing Director Audun Goksøyr at Promar AS].

Among the reasons for this is that the cells which generate malignant melanomas are located deep in the skin. It is primarily long-wavelength UV radiation which penetrates to these cells when we sunbathe. By preventing this radiation from penetrating the skin will be an excellent way of averting the development of this highly lethal form of cancer. It will also act as an anti-wrinkle agent.

You can find out more about UVAblue at its eponymous website. ETA Aug. 13, 2013 1230 pm PDT: I’ve removed a citation for and a link to a paper that was incorrectly placed here.