BACKGROUND AND PURPOSEThe development of subtype-selective ligands to inhibit voltage-sensitive sodium channels (VSSCs) has been attempted with the aim of developing therapeutic compounds. Tetrodotoxin (TTX) is a toxin from pufferfish that strongly inhibits VSSCs. Many TTX analogues have been identified from marine and terrestrial sources, although their specificity for particular VSSC subtypes has not been investigated. Herein, we describe the binding of 11 TTX analogues to human VSSC subtypes Na v 1.1-Na v 1.7.
EXPERIMENTAL APPROACHEach VSSC subtype was transiently expressed in HEK293T cells. The inhibitory effects of TTX analogues on each subtype were assessed using whole-cell patch-clamp recordings.
The first total synthesis of chiriquitoxin, the most structurally complex analogue of tetrodotoxin isolated from a Costa Rican dart frog, has been accomplished from a newly designed intermediate for a variety of tetrodotoxin derivatives. The synthesis includes the third total synthesis of tetrodotoxin in this laboratory, and its intermediate was transformed into chiriquitoxin by a stereocontrolled aldol reaction with a D-camphor-derived lactone for installation of the unique side chain, and a new deprotection of methylthiomethyl (MTM) ether by using a Pummerer rearrangement.
5,6,11-Trideoxytetrodotoxin, a naturally occurring analog of tetrodotoxin, was synthesized from a synthetic intermediate of 5-deoxytetrodotoxin by continuous radical deoxygenation of two hydroxy groups at the C-6 and C-11 positions.
Several polyclad flatworm species are known to contain high levels of tetrodotoxin (TTX), but currently TTX-bearing flatworms seem to be restricted to specific Planocera lineages belonging to the suborder Acotylea. During our ongoing study of flatworm toxins, high concentrations of TTXs were detected for the first time in the flatworm Prosthiostomum trilineatum, suborder Cotylea, from the coastal area of Hayama, Kanagawa, Japan. Toxin levels were investigated by high performance liquid chromatography-tandem mass spectrometry (LC-MS/MS), revealing that this species contains comparable concentrations of toxins as seen in planocerid flatworms such as Planocera multitentaculata. This finding indicated that there may be other species with significant levels of TTXs. The distribution of TTXs among other flatworm species is thus of great interest.
Redox-active organic molecules are promising candidates
for next-generation
electrode materials. Nevertheless, finding low-molecular-weight organic
materials with a long cycle life remains a crucial challenge. Herein,
we demonstrate the application of tetrathiafulvalene and its vinyl
analogue bearing triphenylamines as long-cycle-life electrodes for
lithium-ion batteries (LIBs). These molecules were successfully synthesized
using palladium-catalyzed C–H arylation. Electrochemical analysis
revealed that a polymer formed on the electrode. LIBs comprising these
molecules exhibited noteworthy charge–discharge properties
with a long cycle life (the capacity after 100 cycles was greater
than 90% of the discharge capacity in the third cycle) and a high
utilization ratio (approximately 100%). “In-cell” polymerization
during the first charge process is considered to contribute to the
effect. This study indicates new avenues for the creation of organic
materials for rechargeable batteries.
Ligand-dependent
Suzuki cross-coupling of 4-bromopyrazol-5-yl triflates
has been developed. This approach enabled selective introduction of
an aryl substituent at the C4 or C5 position in pyrazoles. This protocol
is the first example in which the cross-coupling proceeded predominantly
at the C4 position in pyrazoles, which is generally recognized as
the least reactive position. The selection of phosphine ligands switched
the order of arylation. This method should be highly useful for preparing
diverse poly-substituted pyrazole derivatives.
It is necessary for aldosterone synthase (CYP11B2) inhibitors to have both high potency and high selectivity over 11β-hydroxylase (CYP11B1), a critical enzyme for cortisol synthesis. Previous studies have reported a number of CYP11B2 inhibitors, most of which have an imidazole or pyridine ring to coordinate the heme-iron motif of CYP11B2; however, highly selective inhibitors of human CYP11B2 are still needed. To expand the selectivity in humans, we explored alternative templates and found that pyrazoles were suitable templates for CYP11B2 inhibitors. Investigation of pyrazoles, especially N-alkyl pyrazoles, as a new template to coordinate the heme-iron motif led to a potent and highly selective CYP11B2 inhibitor 28 with an aldosterone-lowering effect at 1 mg/kg dosing in cynomolgus monkeys.
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