Safety and stable survival of stem-cell-derived retinal organoid for 2 years in patients with retinitis pigmentosa.

Transplantation of induced pluripotent stem cell (iPSC)-derived retinal organoids into retinal disease animal models has yielded promising results, and several clinical trials on iPSC-derived retinal pigment epithelial cell transplantation have confirmed its safety. In this study, we performed allogeneic iPSC-derived retinal organoid sheet transplantation in two subjects with advanced retinitis pigmentosa (jRCTa050200027). The primary endpoint was the survival and safety of the transplanted retinal organoid sheets in the first year post-transplantation. The secondary endpoints were the safety of the transplantation procedure and visual function evaluation. The grafts survived in a stable condition for 2 years, and the retinal thickness increased at the transplant site without serious adverse events in both subjects. Changes in visual function were less progressive than those of the untreated eye during the follow-up. Allogeneic iPSC-derived retinal organoid sheet transplantation is a potential therapeutic approach, and the treatment's safety and efficacy for visual function should be investigated further.

Morphological study on Mycobacterium bovis BCG Tokyo 172 cell wall skeleton (SMP-105).

Mycobacterial cell wall consists of rigid cell wall skeleton (CWS), a mycoloyl arabinogalactan peptidiglycan complex, in which mycoloyl structure varies by the mycobacterial species diversely, whereas the arabinogalactan peptidoglycan structure is consistent comparatively. The CWS of Mycobacterium bovis BCG has long been expected as a potent adjuvant for immunotherapy of malignant tumor. Although the chemical structure of CWS has been established in the last few decades, the physicochemical properties of CWS having highly amphipathic micelle structure with very long mycoloyl and carbohydrate chains are not unveiled. In this study, the ultrastructure of CWS of M. bovis BCG Tokyo 172 (SMP-105), suspended in several solvents with different polarity, was investigated with a particle size analyzer, a transmission electron microscope (TEM) and other techniques. As a result, the particle size was about 4.7 to 67.8 microm in physiological saline, but it became smaller and more compact when suspended in hydrophobic solvents. TEM images showed two different morphological forms distinctively: double folded sheet structure in hydrophilic conditions and multilayered rolled sheet structure in hydrophobic conditions. These studies have revealed characteristic surface features of SMP-105, the hydrophobic moiety occupying dominant space and the hydrophilic moiety smaller space, respectively, which may lead to the acceleration of immunological studies on this product.