Real-life Invisible Man: Scientists turn human cells transparent

Embargoed until: Publicly released:
Peer-reviewed: This work was reviewed and scrutinised by relevant independent experts.

Experimental study: At least one thing in the experiment was changed to see if it had an impact on the subjects (often people or animals) – eg: changing the amount of time mice spend on an exercise wheel to find out what impact it has on weight loss.

Cells: This is a study based on research in micro-organisms, cells, tissue, organs or non-human embryos.

Researchers have engineered human cells that are capable of controllable and reversible transparency. Kidney cells were augmented with a reflectin protein, which squids use to turn parts of their body see-through. It’s a far cry from turning a whole person invisible, but the researchers say the technique could be used by other scientists to get a clearer view of the processes inside living cells and tissues.

 

Journal/conference: Nature Communications

Link to research (DOI): 10.1038/s41467-020-16151-6

Organisation/s: University of California Irvine, US

Funder: We are grateful to the Defense Advanced Research Projects Agency (Cooperative Agreement W911NF-17- 2-0142 to A.A.G.) and the Air Force Office of Scientific Research (Grants FA9550-17-1- 0024 and FA9550-16-1-0296 to A.A.G.) for their financial support

Media release

From: Springer Nature

Biotechnology: Engineering human cells to become transparent 

Human cells that are capable of becoming transparent in laboratory experiments are reported this week in Nature Communications.

Many cephalopods are capable of changing how their skin transmits, absorbs and reflects light, which can be used for the purposes of camouflage. The female Doryteuthis opalescens squid also uses this mechanism in attempts to avoid acts of aggression by switching a stripe on its mantle from nearly transparent to white. In both cases, the process is controlled by a series of cells called leucophores, which contain proteins called reflectins that are capable of altering the optical properties of the cell.

Inspired by adaptive cephalopod skin cells, Alon Gorodetsky and colleagues set out to design and engineer human cells that are capable of controllable and reversible transparency. The authors selected human embryonic kidney cells and engineered them to express the protein reflectin A1, found in the mantle of D. opalescens. They then studied whether the expression of the squid protein affected the human cells’ interaction with light and whether these properties could be controlled. Using different concentrations of sodium chloride solution in laboratory experiments, they were able to alter the levels of transparency of the engineered cells.

The authors conclude that their findings may improve understanding of a wide range of biological systems, by allowing clearer imaging of processes taking place inside living cells and tissues.   

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