👤 Shoji Fukamachi

The vertebrate retina is a laminated tissue with a relatively simple structure compared with the brain, and its accessibility makes it an excellent model for studying damage and repair in the central nervous system. This study investigated the regenerative process of the photoreceptor layer in medaka ( Medaka embryos at 3 days post fertilization (dpf) were irradiated with 7-10 Gy to determine the lethal threshold, from which 8 Gy was determined to be a sub-lethal dose. In 8 Gy-irradiated embryos, eye size was assessed by stereomicroscopy and photoreceptor regeneration was histologically evaluated by Zpr1 immunohistochemistry at 8, 14, and 21 dpf. Visual function was evaluated by optomotor response under standard and reduced-contrast conditions. Irradiation at 10 Gy induced severe cone loss, resulting in mortality from 15 dpf. In contrast, larvae exposed to 8 Gy showed no significant alterations in central or dorsal cones compared with controls, whereas ventral cones were significantly shorter and fewer in number. These abnormalities, as well as eye size, gradually recovered to control levels by 21 dpf. Although transient reductions in eye size and ventral cones were observed, OMR testing revealed no impairment of visual performance at 8, 14, or 21 dpf, even under stringent low-contrast conditions. Sub-lethal gamma irradiation transiently induced localized damage especially in the ventral retina and reduction in eye size, both of which were fully repaired within 21 dpf. Behavioral analysis demonstrated that such transient, repairable damage does not impair visual function in irradiated medaka larvae. Show less

To support in vivo and in vitro studies of intravascular triglyceride metabolism in mice, we created rat monoclonal antibodies (mAbs) against mouse LPL. Two mAbs, mAbs 23A1 and 31A5, were used to develop a sandwich ELISA for mouse LPL. The detection of mouse LPL by the ELISA was linear in concentrations ranging from 0.31 ng/ml to 20 ng/ml. The sensitivity of the ELISA made it possible to quantify LPL in serum and in both pre-heparin and post-heparin plasma samples (including in grossly lipemic samples). LPL mass and activity levels in the post-heparin plasma were lower in Gpihbp1 Show less

Ablation of short single cones (SSCs) expressing short-wavelength-sensitive opsin (SWS1) is well analyzed in the field of regenerative retinal cells. In contrast with ablation studies, the phenomena caused by the complete deletion of SWS1 are less well-understood. To assess the effects of SWS1 deficiency on retinal structure, we established and analyzed sws1-mutant medaka. To visualize SWS1, a monoclonal anti-SWS1 antibody and transgenic reporter fish (Tg(sws1:mem-egfp)) were generated. We also developed a CRISPR/Cas-driven sws1-mutant line. Retinal structure of sws1 mutant was visualized using anti-SWS1, 1D4, and ZPR1 antibodies and coumarin derivatives and compared with wild type, Tg(sws1:mem-egfp), and another opsin (lws) mutant. Our rat monoclonal antibody specifically recognized medaka SWS1. Sws1 mutant retained regularly arranged cone mosaic as lws mutant and its SSCs had neither SWS1 nor long wavelength sensitive opsin. Depletion of sws1 did not affect the expression of long wavelength sensitive opsin, and vice versa. ZPR1 antibody recognized arrestin spread throughout double cones and long single cones in wild-type, transgenic, and sws1-mutant lines. Comparative observation of sws1-mutant and wild-type retinas revealed that ZPR1 negativity is not a marker for SSCs with SWS1, but SSCs themselves. Loss of functional sws1 did not cause retinal degeneration, indicating that sws1 is not essential for cone mosaic development in medaka. Our two fish lines, one with visualized SWS1 and the other lacking functional SWS1, offer an opportunity to study neural network synapsing with SSCs and to clarify the role of SWS1 in vision. Show less