From function to structure: how myofibrillogenesis influences the transverse–axial tubular system development and its peculiarities
Zuzana Sevcikova Tomaskova, Katarina Mackova

TL;DR
This review explores how the transverse–axial tubular system in muscle cells develops alongside myofibrils and how this process is influenced by electromechanical stimulation.
Contribution
The paper highlights the irregular phase of TATS growth and proposes a hypothesis linking its organization to myofibril development.
Findings
TATS development is delayed and matures postnatally, starting with small invaginations and forming an irregular network.
Protein interactions, especially between costameric and sarcomeric proteins, support coupling between TATS and myofibrils.
Electromechanical stimulation is hypothesized to drive the formation and organization of the TATS.
Abstract
The transverse–axial tubular system (TATS) is the extension of sarcolemma growing to the cell interior, providing sufficient calcium signaling to induce calcium release from sarcoplasmic reticulum cisternae and stimulate the contraction of neighboring myofibrils. Interestingly, the development of TATS is delayed and matures during the post-partum period. It starts with small invaginations near the sarcolemma, proceeding to grow an irregular network that is later assembled into the notably transversally oriented tubular network. Accumulating evidence supports the idea that the development of TATS is linked to cell dimensions, calcium signaling, and increasing myofibrillar content orchestrated by electromechanical stimulation. However, the overall mechanism has not yet been described. The topic of this review is the development of TATS with an emphasis on the irregular phase of tubule…
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Taxonomy
TopicsBlood properties and coagulation · Caveolin-1 and cellular processes · Hemoglobin structure and function
