Transforming growth factor-beta (TGF-beta) is a multifunctional cytokine of key importance for controlling embryogenesis and tissue homeostasis. How TGF-beta signals are attenuated and terminated is not well understood. Here, we show that TMEPAI, a direct target gene of TGF-beta signaling, antagonizes TGF-beta signaling by interfering with TGF-beta type I receptor (TbetaRI)-induced R-Smad phosphorylation. TMEPAI can directly interact with R-Smads via a Smad interaction motif. TMEPAI competes with Smad anchor for receptor activation for R-Smad binding, thereby sequestering R-Smads from TbetaRI kinase activation. In mammalian cells, ectopic expression of TMEPAI inhibited TGF-beta-dependent regulation of plasminogen activator inhibitor-1, JunB, cyclin-dependent kinase inhibitors, and c-myc expression, whereas specific knockdown of TMEPAI expression prolonged duration of TGF-beta-induced Smad2 and Smad3 phosphorylation and concomitantly potentiated cellular responsiveness to TGF-beta. Consistently, TMEPAI inhibits activin-mediated mesoderm formation in Xenopus embryos. Therefore, TMEPAI participates in a negative feedback loop to control the duration and intensity of TGF-beta/Smad signaling.
The authors report their experience with 23 sites of hidradenitis suppurativa, including cases with musculocutaneous flap repair, and discuss the surgical methods applied. Twenty-three sites in 19 patients with chronic inflammatory skin lesions were reviewed. The lesions were divided into two groups: The limited group was comprised of mild lesions, which appear isolated and have limited abscesses without sinus tract formations. The severe group was compromised of severe lesions, which included diffuse, multiple abscesses with severe sinus tract formation and fibrosis. Nine sites were limited and 14 sites were severe. After resecting the lesion, the defect was covered with a split-thickness skin graft (four sites were limited, nine sites severe), a musculocutaneous flap (five sites severe), primary closure (four sites limited), and a local skin flap (one site limited). In six sites in 6 severe-group patients, local recurrence occurred. The local recurrence rate differed significantly between the limited and the severe groups. The reason for this may be because the lesions in the limited group could be resected completely, whereas the lesions in the severe group were diffuse and total resection was sometimes difficult for various reasons. The method of surgical repair did not affect the local recurrence rate. In recurrent cases, four sites treated with skin grafting required further surgical treatment, and two sites treated with musculocutaneous flaps were controlled with oral antibiotics. In conclusion, sufficient resection of the lesion is the most important issue in treating follicular occlusion triad disease. In lesions that can be resected completely, the surgical procedure to cover the lesions should be selected to suit the size and site of the defect. However, in cases that cannot be resected completely, a musculocutaneous flap is recommended instead of a skin graft for enhanced postoperative management of the recurring wound, and its contribution to aesthetic and functional improvement.
The topological features of material surfaces are crucial to the emergence of functions based on characteristic architectures. Among them, the combination of surface architectures and soft materials, which are highly deformable and flexible, has great potential as regards developing functional materials toward providing/enhancing advanced functions such as switchability and variability. Therefore, a simple yet versatile method for creating three-dimensional (3D) architectures based on soft materials is strongly required. In this study, hydrogels are selected as the soft materials and hydrogel film/rigid substrate layer composites are fabricated to obtain a 3D hydrogel architecture based on swelling instability. When a hydrogel film weakly attached to a rigid substrate is exposed to water, swelling-driven compressive stress induces buckle-delamination of the film from the substrate. Utilizing the chemical modification of a rigid substrate and a conventional photolithography technique, the delamination location is successfully controlled, resulting in a highaspect-ratio folding architecture at an arbitrary position. In addition, we systematically designed the delamination geometry and chemically tuned the swelling ratio of the hydrogel, leading to the discovery of several new morphology transitions and relationships between the morphologies and the controllable parameters. This work provides a new approach to fabricating highly programmable 3D architectures of soft materials.
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