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Kanazawa University research: Heat and manipulate, one cell at a time


KANAZAWA, Japan, July 4, 2022 /PRNewswire/ -- Researchers at Kanazawa University report in ACS Nano the development of a nanoparticle that acts as a heater and a thermometer.  Inserting the nanoparticle in living cells results in a heat spot that, by switching it on and off, enables the controlled modulation of local cellular activities.

Being able to heat nano-sized regions in biological tissues is key to several biomedical applications.  Indeed, many biological processes are temperature-sensitive, and the ability to locally modify temperature provides a way to manipulate cellular activity.  A notable purpose is the destruction of cancer cells by heating them.  Beside the need for an in-tissue local heating mechanism, it also important to be able to instantaneously measure the generated temperature.  Satoshi Arai from Kanazawa University and colleagues have now engineered a nanoparticle that is both a nanoheater and a nanothermometer at the same time.  They successfully showed that the insertion of a single, controllable heat spot in tissue can be very effective in modifying cellular function.

The nanoparticle, called "nanoHT" by the scientists ? an abbreviation of "nanoheater-thermometer" ? is essentially a polymer matrix embedding a dye molecule (called EuDT) used for sensing temperature, and another dye molecule (called V-Nc) for releasing heat. The latter happens through the conversion of light into thermal energy (the photothermal effect, also exploited in solar cells): shining a near-infrared laser (with a wavelength of 808 nanometer) onto V-Nc results in fast heating, with a stronger increase in temperature for higher laser power.

Temperature sensing is based on the thermal fluorescence effect of EuDT.  When irradiated with light of one wavelength, the molecule emits light at another wavelength ? fluorescence.  The higher the temperature, the less intense the fluorescence becomes. This inverse relationship can be used to measure temperature.  Arai and colleagues tested the performance of nanoHT as a thermometer, and established that it can determine temperatures with a resolution of 0.8°C and less.

The researchers then performed experiments with a type of human cells called HeLa cells. They looked at the effect of heating through nanoHT, and found that at a temperature increment of about 11.4 °C, the heated HeLa cells died after only a few seconds. This finding suggests that nanoHT could be used to induce cell death in cancer cells.

Arai and colleagues also studied how nanoHT can be used to affect the behavior of muscles. They introduced the nanoparticle into myotube, a type of fiber present in muscle tissue.  Upon heating the myotube by approximately 10.5 °C, the muscle tissue contracted. The procedure worked reversibly; letting the myotube cool again led to muscle relaxation.

The work of Arai and colleagues shows that local heating at a subcellular scale by means of nanoHT enables the controlled manipulation of a single cell's activity.  Regarding applications, the scientists believe that "the targeted application of nanoHT has a diverse and versatile range of capabilities to regulate cellular activities that would facilitate the development of thermodynamic cell engineering."

Background

Fluorescence

Fluorescence refers to the emission of light by a substance after which it has absorbed light (or another type of electromagnetic radiation).  Typically, the emitted light has a longer wavelength, and so a lower photon energy, than the absorbed radiation. A well-known case of fluorescence happens when the absorbed radiation is in the ultraviolet region of the spectrum, invisible to the human eye, while the emitted light is in the visible region.

Fluorescent thermometry is a technique for measuring temperatures through the use of fluorescent dye molecules, the fluorescence intensity of which is a strong function of temperature. The dye molecules are inserted into a material of interest; detailed knowledge of the fluorescence intensity vs. temperature dependence enables to infer the temperature of the material.  (The dye molecules are excited to fluoresce by incident light; its intensity provides a measure of the local temperature.)

Satoshi Arai from Kanazawa University and colleagues used fluorescence dye molecules to develop nanoHT, a nanoparticle acting as both a heater and a thermometer for nano-bio applications.

Reference

Ferdinandus, Madoka Suzuki, Cong Quang Vu, Yoshie Harada, Satya Ranjan Sarker, Shin'ichi Ishiwata, Tetsuya Kitaguchi, and Satoshi Arai.  Modulation of Local Cellular Activities using a Photothermal Dye-Based Subcellular-Sized Heat Spot, ACS Nano 16, 9004?9018 (2022).

DOI: 10.1021/acsnano.2c00285

URL: https://pubs.acs.org/doi/10.1021/acsnano.2c00285

Images

https://nanolsi.kanazawa-u.ac.jp/wp-content/uploads/2022/07/fig1.jpg

Figure 1. Thermodynamic Cell Engineering: Creating a tiny heat spot enables to regulate cellular functions

https://nanolsi.kanazawa-u.ac.jp/wp-content/uploads/2022/07/fig2.jpg

Figure 2. Microscopic system for nanoheating. A) Schematic and microscopic images of nanoheater (nanoHT) (Transmission electron microscopy). B) A system to warm up a localized region at single cellular level (upper panel). A single dot of nanoHT was located within a single cell (lower left panel). Temperature gradient at microscale was generated at subcellular level (lower right panel).

https://nanolsi.kanazawa-u.ac.jp/wp-content/uploads/2022/07/fig3.jpg

Figure 3. A nanoparticle combining photothermal heating and fluorescence thermometry functions as a localized heat spot, and is capable of inducing cell death or muscle contraction.

Contact

Hiroe Yoneda 
Vice Director of Public Affairs
WPI Nano Life Science Institute (WPI-NanoLSI)
Kanazawa University
Kakuma-machi, Kanazawa 920-1192, Japan
Email: [email protected]
Tel: +81 (76) 234-4550

About Nano Life Science Institute (WPI-NanoLSI)

https://nanolsi.kanazawa-u.ac.jp/en/

Nano Life Science Institute (NanoLSI), Kanazawa University is a research center established in 2017 as part of the World Premier International Research Center Initiative of the Ministry of Education, Culture, Sports, Science and Technology. The objective of this initiative is to form world-tier research centers. NanoLSI combines the foremost knowledge of bio-scanning probe microscopy to establish 'nano-endoscopic techniques' to directly image, analyze, and manipulate biomolecules for insights into mechanisms governing life phenomena such as diseases.

About Kanazawa University

http://www.kanazawa-u.ac.jp/e/

As the leading comprehensive university on the Sea of Japan coast, Kanazawa University has contributed greatly to higher education and academic research in Japan since it was founded in 1949. The University has three colleges and 17 schools offering courses in subjects that include medicine, computer engineering, and humanities.

The University is located on the coast of the Sea of Japan in Kanazawa ? a city rich in history and culture. The city of Kanazawa has a highly respected intellectual profile since the time of the fiefdom (1598-1867). Kanazawa University is divided into two main campuses: Kakuma and Takaramachi for its approximately 10,200 students including 600 from overseas.

  

SOURCE Kanazawa University


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