(Press-News.org)
Cells all require the transport of materials to maintain their function. In nerve cells, a tiny motor made of protein called KIF1A is responsible for that. Mutations in this protein can lead to neurological disorders, including difficulties in walking, intellectual impairment and nerve degradation. It’s known that mutations in KIF1A also result in a weakened motor performance, but this has been difficult to measure so far. Researchers including those from the University of Tokyo and the National Institute of Information and Communications Technology (NICT) in Japan have measured changes in the force of KIF1A using a nanospring, a tiny, coiled structure, made of DNA which could lead to improved diagnosis of diseases related to the protein’s mutations.
Neurological conditions such as KIF1A-associated neurological disorder (KAND) can be hugely detrimental to the lives of sufferers. So there is considerable effort put into research around them in terms of mitigating some of the symptoms. And a key component of that is the initial diagnosis, as the sooner issues are caught, the sooner they can be addressed.
“KAND results from mutations in the motor protein KIF1A, and it’s been reported that some KIF1A mutants generate a motor force of less than 1 piconewton, compared to a healthy version’s 3.8 piconewtons. These forces are very hard to detect. Even a strong copy of KIF1A at 3.8 piconewtons only exerts a trillionth of the force needed to lift an apple,” said Professor Kumiko Hayashi from the Institute for Solid State Physics at the University of Tokyo. “Previous studies attempted to use optical tweezers, based on lasers, but the signals these gave were unclear and test samples would often become detached. So, we sought a better alternative, and this led me to use a coil-shaped DNA nanospring, created by Senior Researcher Mitsuhiro Iwaki from NICT, the first of its kind.”
The name is pretty self-explanatory: It’s a tiny coil only a few nanometers long, a billionth of the width of a human hair, made of DNA. It can be securely attached to both an immovable surface and to a KIF1A protein, and as you can imagine, its springlike nature of it means it extends depending on the force applied to it. The nanospring glows under a microscope to indicate its degree of stretching. So by carefully observing this fluorescence, Hayashi and her team were able to accurately measure how forcefully KIF1A was pulling on a DNA nanospring.
“After obtaining fluorescence images of the nanospring, it was necessary to estimate its length from the images, and we developed an estimation method to do so. Information science also proved to be important for single-molecule analysis,” said Hayashi.
The nanosprings are made using a process called DNA origami, where a long strand of DNA is folded using many shorter strands. Computer programs help design two and three-dimensional shapes at the nanoscale, and the DNA folds correctly on its own because the constituent molecules join in predictable ways. Thanks to its shape and flexibility, researchers can build tiny, spring-like structures that follow a blueprint with surprising accuracy.
Although the DNA nanospring is unlikely to lead to a treatment in itself, the fact it can aid in diagnosing KAND is a big step forward. Hayashi and her team are now developing high-throughput data analysis methods since there are more than 100 known KIF1A mutations, and they wish to build a database cataloging their force measurements.
“Since the biophysical properties of the motor protein are important for predicting disease severity, we aim to improve predictions of KAND severity by incorporating these data into AI-based models of protein performance.” said Hayashi.
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Journal: Nobumichi Takamatsu, Hiroko Furumoto, Takayuki Ariga, Mitsuhiro Iwaki, Kumiko Hayashi, “Stall force measurement of the kinesin-3 motor KIF1A using a programmable DNA origami nanospring”, eLife, https://doi.org/10.7554/eLife.108477.1
Funding: This work was supported by JSPS KAKENHI (Grant No. 23H02442), the Precise Measurement Technology Promotion Foundation (PMTP-F), and a KIF1A.org Mini Grant to K.H, JSPS KAKENHI (Grant No. 21H01053) and JST, CREST (Grant No. JPMJCR2023) to M.I., JST PRESTO (Grant No. JPMJPR21E2) to T.A.
Useful links:
The Institute for Solid State Physics
https://www.issp.u-tokyo.ac.jp/index_en.html
Biophysics Measurement Lab
https://hayashi.issp.u-tokyo.ac.jp/
Protein Biophysics Group, Bio-ICT Laboratory
https://www2.nict.go.jp/bio/seitai/research_theme_iwaki.html
Research Contacts:
Professor Kumiko Hayashi
The Institute for Solid State Physics, The University of Tokyo
Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8581 Japan
hayashi@issp.u-tokyo.ac.jp
Mitsuhiro Iwaki
Protein Biophysics Group, Bio-ICT Laboratory, Advanced ICT Research Institute,
National Institute of Information and Communications Technology
588-2 Iwaoka, Nishi-ku, Kobe 651-2492, Japan
iwakim@nict.go.jp
Press contact:
Mr. Rohan Mehra
Strategic Communications Group, The University of Tokyo,
7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-8656, Japan
press-releases.adm@gs.mail.u-tokyo.ac.jp
About The University of Tokyo:
The University of Tokyo is Japan's leading university and one of the world's top research universities. The vast research output of some 6,000 researchers is published in the world's top journals across the arts and sciences. Our vibrant student body of around 15,000 undergraduate and 15,000 graduate students includes over 5,000 international students. Find out more at www.u-tokyo.ac.jp/en/ or follow us on X (formerly Twitter) at @UTokyo_News_en.
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