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Arctic Pharma, a member of Oslo Cancer Cluster, gave students a lecture on the chemistry behind cancer treatments.

Chemistry with mutual benefits

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Students were taught about the chemistry behind developing cancer treatments in the Oslo Cancer Cluster Incubator.

In February, forty chemistry students were given a memorable specialisation day on the subject of the chemistry behind developing cancer treatments. The company Arctic Pharma in Oslo Cancer Cluster Incubator invited them to the lab and gave a long and detailed lecture on the chemistry behind the medication they are developing to treat cancer.

Karl J. Bonney, who is a researcher in the company, started the day with an interactive lecture in English about the chemistry of the substance Arctic Pharma hopes will be effective against cancer.

Bonney emphasised to the students that the company is in the early stages of the development, and that it will take approximately three to four years before they are potentially able to start clinical trials on humans to see whether the substance is effective.

The pupils who are studying chemistry as their specialisation in the last year of upper secondary school were obviously fascinated by what they heard. They asked many important questions both to the lecturer, Bonney, and the chemistry teacher, Karsten, who participated to explain the most difficult terms in Norwegian.

 

Sugar-hungry cancer cells

Arctic Pharma is exploiting a well-known biological fact regarding cancer cells, namely that they like sugar, which means they have a sweet tooth. This is called the Warburg effect, and, so far, nobody has used it in the treatment of cancer. Since this is such a characteristic aspect of cancer cells, it would make sense to think that this could be a viable starting point for treatment.

Arctic Pharma is one of the smaller companies in Oslo Cancer Cluster Incubator and is co-located with Ullern Upper Secondary School. Bonney has been permitted to use the school’s chemistry lab to test the chemical substance being developed to attack the Warburg effect.

The chemistry day at the company was organised to return the favour and to inspire the young chemistry students to keep studying chemistry at a university or university college.

 

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One of the tenants in the Oslo Cancer Cluster Incubator.

The Incubator Labs are expanding

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The laboratories at Oslo Cancer Cluster Incubator are expanding to meet increasing demand from members.

 

Oslo Cancer Cluster Incubator has recently converted three offices into new laboratories to accommodate the rising demand from their members.

From the opening in 2015, the laboratories in the Incubator have been a great success. Several of the start-ups have expanded their work force and require more offices and lab space.

The new laboratory is jointly occupied by Zelluna Immunotherapy and the Department of Cellular Therapy (Oslo University Hospital). The Institute for Energy Technology and Arctic Pharma have also expanded their laboratories with an extra room each.

The laboratories are now running at full capacity, but there is some space available in the shared labs. Some of the members of the Incubator offer their services to outside companies who are in need of getting lab work done.

“Our ambition is to grow the Incubator Labs further into the new Innovation Park next door.” Bjørn Klem, General Manager

 

Office plan of the OCC Incubator

The Incubator occupies over 550 square meters. Offices have been converted into labs to meet the growing interest from the members.

 

A unique model

The Incubator Labs follow a unique model, which offers both private laboratories and fully equipped shared laboratories. The private laboratories are leased with furniture, water supply, electricity and ventilation. The companies bring their own equipment depending on their needs.

Shared laboratories, including a bacteria lab, a cell lab and wet lab, are leased including basic equipment with the opportunity for companies to bring their own if shared by all tenants. All laboratories share the common support facilities including a cold room for storage, a laundry room, and storage room including cell tanks and nitrogen gas.

“This model of a shared laboratory is very unusual,” said Janne Nestvold, Laboratory Manager at the Oslo Cancer Cluster Incubator.

The advantage of working in a shared lab is that companies can avoid the costs and limitations associated with setting up and managing a laboratory. A broad range of general equipment, including more advanced, analytical instruments, are provided by the Incubator.

”It would be too expensive for a small company to buy all this equipment themselves.” Janne Nestvold, Laboratory Manager

 

The Department of Cellular Therapy (Oslo University Hospital) are one of the members using the shared lab. Photograph by Christopher Olssøn

The Department of Cellular Therapy (Oslo University Hospital) are one of the members using the shared lab. Photograph by Christopher Olssøn

 

 

Open atmosphere

The laboratories have an open and light atmosphere. Large windows provide ample lighting and all spaces are kept clean and tidy. The halls are neatly lined with closets and plastic containers for extra storage.

The general mood is calm and friendly. Nestvold communicates daily with the users about changes, updates and improvements, which sets an informal tone. Thanks to monthly lab meetings, the users are also involved in the decision-making process. The companies often work side-by-side or in teams, fostering collaboration rather than competition. There is therefore a strong workplace culture based upon flexibility and mutual respect.

The companies often work side-by-side or in teams, fostering collaboration rather than competition.

Nestvold also ensures that the high demands on the infrastructure of the laboratory are met. She has put agreements in place to facilitate the members’ needs, such as the washing of lab coats, pipette service and shipping packages on dry ice. With all these services included, the Incubator Labs are attractive for researchers and companies to carry out their cancer research.

 

Over the years, Nordic Nanovector, OncoInvent, Targovax, Intersint, OncoImmunity have conducted research in the laboratories. Now, Arctic Pharma, the Department of Cellular Therapy (Oslo University Hospital), GE Healthcare, the Institute for Energy Technology, Lytix BioPharma, NorGenotech, Ultimovacs and Zelluna Immunotherapy are using the Incubator Labs to develop their cancer treatments.

 

  • For more information about the Incubator Lab, get in touch with Janne Nestvold.

 

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Three students experimenting with fruit flies in a lab.

Operation fruit flies

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Fruit flies are not only annoying little insects that appear when bananas are overripe. They are also popular research tools for cancer researchers.

The four pupils Kalina Topalova Casadiego, Ida Hustad Andresen, Andreas Bernhus and Dina Düring got to experience how cancer researchers look at fruit flies during their work placement in January.

“Let’s turn on the gas, and then I’ll put some fruit flies on the pad under your microscope.” Speaking is cancer researcher Lene Malrød who, together with her colleague Nina Marie Pedersen, is responsible for four pupils from Ullern Secondary School on work placements.

“Gosh! They’re moving,” proclaims one of the pupils.

But not for long. Soon, all the fruit flies are anaesthetised and, eventually, dead; then the pupils are tasked with surgically removing the ovaries of the female flies. It is easier said than done, even with the help of microscopes to enhance the tiny flies. Especially when the operating tools are two tweezers.

Fruit flies are kept in two test tubes

The fruit flies are kept in test tubes.

 

An exciting placement

It is the third day of the pupils’ work placement at the Institute for Cancer Research, located next to the school. For four days at the end of January, they have learnt about cancer research and which methods researchers use in their daily work.

“The work placement is not like we imagined,” says Kalina and Ida.

“There’s a lot more manual work than I would have thought, and then you realise how important research is through what we do,” says Ida.

She is the only one who is specialising in biology in combination with with other science subjects, and she finds this very useful when working in the lab together with researchers. The other three have had to catch up on the reading, but they all agree that it is very exciting.

“Yesterday, we learnt a lot about CRISPR, which is a new method for cutting and splicing genes. Media gives you the impression that this is a highly precise tool, but the researchers here say that a lot can go wrong, and that it’s not at all as precise as you might think,” says Ida.

A student looks at fruit flies under a microscope

The students look at the fruit flies under a microscope.

 

From Western Blot to flies

A total of twelve pupils were picked out for this work placement. They have been chosen based on motivation and grades, and they all have a wish to study something related to medicine or science after they finish upper secondary school.

The twelve students are divided into three groups with completely different activities and get to learn a number of different research methods. The group consisting of Ida, Kalina, Andreas, and Dina, for instance, is the only group which will have a go in the fly lab.

“Am I really supposed to remove the ovaries? I don’t see how,” one of the pupils say, equally discouraged and excited.

Andreas, on the other hand, is in complete control. First, he has separated the males and the females with a paint brush. He has then used the tweezers to remove the heads from the females, punctured the bottom to remove the intestines, and finally found the ovaries in the abdomen.

Lene gathers all the different body parts for the pupils to look at through a different microscope. These fruit flies are in fact genetically manipulated to glow in the dark – they are fluorescent.

If you are wondering why researchers use fruit flies as part of their research, you can read more about it in this article from Forskning.no (the article is written in Norwegian).

“It is so much fun to be here, and we are really lucky to get this opportunity,” says Dina on her way from the fly lab to another lab to carry out another experiment.

 

The pupils on the work placement have uploaded many nice photos and videos on Ullern Secondary School’s Instagram account – visit their account to see more from the placement.

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