(Press-News.org)
Transverse tubules (T-tubules) play significant role in muscle contraction. However, the underlying mechanism of their formation is yet to be elucidated. In a recent study, a research team from Japan used a Drosophila model to understand this process. The results show the involvement of LUBEL, an E3 ubiquitin ligase, in the T-tubule biogenesis. Beyond LUBEL’s role in immune response, the study reveals an unexpected function of linear ubiquitination in membrane deformation, driven by BAR-domain proteins.
Transverse tubules (T-tubules), the tubular invaginations of the muscle plasma membrane, facilitate synchronized muscle contraction by transmitting the electrical signals. Despite their significance in muscle physiology, the mechanisms governing T-tubule formation remain elusive.
Bin/Amphiphysin/Rvs (BAR)-domain proteins are a group of proteins that regulate cellular membrane dynamics by sensing and bending membrane curvature. They are banana-shaped dimers that bind to the concave surface of curved membranes. Amphiphysin (Amph) is one such BAR-domain protein associated with T-tubule formation. The N-terminal BAR-domain of this protein binds to the membrane, while the role of the C-terminal domain in T-tubule shaping had remained unclear.
A team of researchers led by Associate Professor Naonobu Fujita and Specially Appointed Assistant Professor Kohei Kawaguchi at the Cell Biology Center, Institute of Science Tokyo (Science Tokyo), Japan, in collaboration with Professor Hidetaka Kosako at Tokushima University, Japan, and Professor Fumiyo Ikeda at Osaka University, Japan, used a Drosophila model to conduct experiments and elucidate the underlying mechanism of this T-tubule biogenesis. Their study was published in the journal Science Advances on January 7, 2026.
“Drosophila is an ideal model for studying T-tubules. Its genetic accessibility enables detailed analysis of how these structures are formed, while the fact that T-tubules are not essential for fly survival allows us to study the mechanisms without affecting viability. In addition, the T-tubule structure can be observed through the cuticle in live animals,” mentions Fujita, while talking about the reason behind selecting the Drosophila model.
The team performed proximity-dependent labeling proteomics and RNAi screening targeting the T-tubules to elucidate the molecular mechanism of their formation in the Drosophila model. Proximity-dependent labeling proteomics refers to a technique in which molecules located very close to a protein of interest are chemically labeled, purified, and identified to map the protein’s local interaction network. In RNAi screening, expression of the target genes are suppressed via RNA interference to identify gene functions via the observed phenotypic changes.
The team identified linear ubiquitin E3 ligase (LUBEL), an enzyme responsible for synthesizing linear (M1-linked) ubiquitin chains, as a novel factor essential for T-tubule biogenesis.
The study findings suggested that in addition to LUBEL’s ubiquitin ligase activity, it also interacts with the C-terminal domain of Amph, leading to the formation of self-assembled structures composed of LUBEL. Amph bound to plasma membranes interacts with the LUBEL protein, which initiates the self-ubiquitination process of LUBEL. This leads to a multivalent interaction among LUBEL molecules through its IDR1 and UBA2 domains, creating a positive feedback loop that generates LUBEL puncta structures. This entire sequence promotes membrane tubulation by inducing membrane curvature.
The team also found that, while the cooperative function of LUBEL and Amph is highly conserved among invertebrates, it has been evolutionarily replaced by caveolin-dependent mechanism in vertebrates. This discovery provides significant new insights into the evolutionary diversification of T-tubule formation mechanisms.
“Previously linear ubiquitin chains were thought to be involved primarily in immune response. But our findings suggest that it directly contributes to the regulation of biological membrane morphology,” shares Fujita. The study proposes a new conceptual framework in which ubiquitination-driven assembly formation regulates the membrane-remodeling activity of BAR-domain proteins.
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About Institute of Science Tokyo (Science Tokyo)
Institute of Science Tokyo (Science Tokyo) was established on October 1, 2024, following the merger between Tokyo Medical and Dental University (TMDU) and Tokyo Institute of Technology (Tokyo Tech), with the mission of “Advancing science and human wellbeing to create value for and with society.”
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