Melanopsin DNA aptamers can regulate input signals of mammalian circadian rhythms by altering the phase of the molecular clock

Kazuo Nakazawa; Minako Matsuo; Yo Kikuchi; Yoshihiro Nakajima; Rika Numano

doi:10.3389/fnins.2024.1186677

Melanopsin DNA aptamers can regulate input signals of mammalian circadian rhythms by altering the phase of the molecular clock

Front Neurosci. 2024 Apr 17:18:1186677. doi: 10.3389/fnins.2024.1186677. eCollection 2024.

Authors

Kazuo Nakazawa^{1

2}, Minako Matsuo³, Yo Kikuchi^{1

3}, Yoshihiro Nakajima⁴, Rika Numano^{1

3}

Affiliations

¹ Department of Applied Chemistry and Life Science, Toyohashi University of Technology, Toyohashi, Aichi, Japan.
² TechnoPro, Inc., Tokyo, Japan.
³ Institute for Research on Next-Generation Semiconductor and Sensing Science, Toyohashi University of Technology, Toyohashi, Aichi, Japan.
⁴ Health and Medical Research, National Institute of Advanced Industrial Science and Technology (AIST), Takamatsu, Kagawa, Japan.

Abstract

DNA aptamers can bind specifically to biomolecules to modify their function, potentially making them ideal oligonucleotide therapeutics. Herein, we screened for DNA aptamer of melanopsin (OPN4), a blue-light photopigment in the retina, which plays a key role using light signals to reset the phase of circadian rhythms in the central clock. Firstly, 15 DNA aptamers of melanopsin (Melapts) were identified following eight rounds of Cell-SELEX using cells expressing melanopsin on the cell membrane. Subsequent functional analysis of each Melapt was performed in a fibroblast cell line stably expressing both Period2:ELuc and melanopsin by determining the degree to which they reset the phase of mammalian circadian rhythms in response to blue-light stimulation. Period2 rhythmic expression over a 24-h period was monitored in Period2:ELuc stable cell line fibroblasts expressing melanopsin. At subjective dawn, four Melapts were observed to advance phase by >1.5 h, while seven Melapts delayed phase by >2 h. Some Melapts caused a phase shift of approximately 2 h, even in the absence of photostimulation, presumably because Melapts can only partially affect input signaling for phase shift. Additionally, some Melaps were able to induce phase shifts in Per1::luc transgenic (Tg) mice, suggesting that these DNA aptamers may have the capacity to affect melanopsin in vivo. In summary, Melapts can successfully regulate the input signal and shifting phase (both phase advance and phase delay) of mammalian circadian rhythms in vitro and in vivo.

Keywords: DNA aptamer; Melapt; circadian rhythm; melanopsin (OPN4); molecular clock; period gene; phase shift.

Grants and funding

This study was supported by research funding from TechnoPro, Inc. TechnoPro R&D Company and the Program to Foster Young Researchers in Cutting-Edge Interdisciplinary Research (to RN). Funding for Kiban Scientists (to RN 24590350, 20H00614) was obtained from the Japan Society for the Promotion of Science (JSPS), the Mitsubishi Science Foundation (to RN), and a Research Grant for Science & Technology Innovation at Toyohashi University of Technology (to RN). This study was also supported by the Ministry of Education, Culture, Sports, Science, and Technology in Japan (to YN 21H02083). KN was supported by a scheme for employees to obtain a Ph.D. from TechnoPro, Inc. TechnoPro R&D Company (0007077240 to KN). TechnoPro, Inc was not involved in the study design, collection, analysis, interpretation of data, the writing of this article, or the decision to submit it for publication.