Detection of tetrodotoxin-producing Providencia rettgeri T892 in Lagocephalus pufferfish

Tetrodotoxin (TTX) is a potent toxin but it could be used in pharmaceutical field. Identification of TTX producing bacteria in pufferfish is necessary for TTX yield and the pufferfish conservation. In this study, Lagocephalus was collected from Cam Ranh Sea, a central part of Vietnam during spring season. The liver and intestine were incubated in 0.9 % NaCl for TTX detection in pufferfish. To be benefited from the isolation of new TTX producing bacteria, the liver and intestine were incubated in 6.5 % NaCl. The cultures were used to test the toxin and to isolate the bacterial community that could yield TTX. Surprisingly, Providencia rettgeri T892 in intestine could produce TTX identified by biochemical test and 16S rRNA sequencing. This strain was used to test the production of TTX, based on thin layer chromatography (TLC), mouse bioassay and high performance liquid chromatography (HPLC) analysis. The bacterium was optimized for TTX production in media prepared from the meat-washing water of Auxis thazard, Megalaspis cordyla and Decapterus maruadsi. Interestingly, the TTX obtained 0.106 mg/mL and 0.055 mg/mL in medium prepared from A. thazard and M. cordyla, respectively while there was no TTX production detected in medium prepared from D. maruadsi. This paper could contribute to warn to the human health care system about a possible TTX poisoning in some cases related to eating fishes.     

Human Retinal Progenitor Cell Transplantation Preserves Vision

Cell transplantation is a potential therapeutic strategy for retinal degenerative diseases involving the loss of photoreceptors. However, it faces challenges to clinical translation due to safety concerns and a limited supply of cells. Human retinal progenitor cells (hRPCs) from fetal neural retina are expandable in vitro and maintain an undifferentiated state. This study aimed to investigate the therapeutic potential of hRPCs transplanted into a Royal College of Surgeons (RCS) rat model of retinal degeneration. At 12 weeks, optokinetic response showed that hRPC-grafted eyes had significantly superior visual acuity compared with vehicle-treated eyes. Histological evaluation of outer nuclear layer (ONL) characteristics such as ONL thickness, spread distance, and cell count demonstrated a significantly greater preservation of the ONL in hRPC-treated eyes compared with both vehicle-treated and control eyes. The transplanted hRPCs arrested visual decline over time in the RCS rat and rescued retinal morphology, demonstrating their potential as a therapy for retinal diseases. We suggest that the preservation of visual acuity was likely achieved through host photoreceptor rescue. We found that hRPC transplantation into the subretinal space of RCS rats was well tolerated, with no adverse effects such as tumor formation noted at 12 weeks after treatment.     

Symposia

Sleep and Biological Rhythms -     

Use of a yeast site-specific recombinase to generate embryonic mosaics in Drosophila

An efficient method for generating embryonic mosaics using a yeast site-specific recombinase (FLP), under the control of a heat shock promoter, is described. FLP-recombinase can promote mitotic exchange between homologous chromosomes that contain FRT (FLP Recombination Target) sequences. To demonstrate the efficiency of FLP-recombinase to generate embryonic mosaics, clones of the recessive and cell autonomous mutation armadillo (arm), detected by their ability to differentiate ectopic denticles in the naked cuticle of each abdominal segment, have been induced. We have analyzed the parameters of FLP-recombinase induced embryonic mitotic recombination and have demonstrated that clones can be efficiently induced during the postblastoderm mitotic divisions. We discuss applications of this technique for the analyses of the roles of various mutations during embryonic patterning. © 1992 Wiley-Liss, Inc.     

Pharmacological characterization of 3H-LSD binding sites in mouse brain in vivo.

In mice receiving i.v. low doses of ³H-LSD the accumulation of radioactivity in brain appears to reflect a selective binding to high affinity sites as indicated by the heterogenous regional distribution (paralleling that observed in in vitro binding studies) and by the saturable character of the process (ED₅₀ around 30μg.kg^?1 in cerebral cortex).The identity of the binding sites was assessed in various regions by administration of agonists or antagonists of different neurotransmitters. In cortex specific accumulation of ³H-LSD was easily prevented by administration of serotonin antagonists (cyproheptadine, methysergide, methiothepin) or by tryptamine derivatives (psilocin, psilocybin, dimethyltryptamine) and 5-hydroxytryptophan + pargyline. Among neuroleptics some prevented ³H-LSD binding (spiperone, haloperidol) whereas 1mg.kg^?1 pimozide was ineffective. In addition a large variety of agents (adrenergic, cholinergic, morphine) were ineffective. These data suggest a selective binding to cortical serotonin receptors.