Investigation of enhanced intracellular delivery of nanomaterials modified with novel cell-penetrating zwitterionic peptide-lipid derivatives

Functionalized drug delivery systems have been investigated to improve the targetability and intracellular translocation of therapeutic drugs. We developed high functionality and quality lipids that met unique requirements, focusing on the quality of functional lipids for the preparation of targeted nanoparticles using microfluidic devices. While searching for a lipid with high solubility and dispersibility in solvents, which is one of the requirements, we noted that KK-(EK)4-lipid imparts nonspecific cellular association to polyethylene glycol (PEG)-modified (PEGylated) liposomes, such as cell-penetrating peptides (CPPs). We investigated whether KK-(EK)4-lipid, which has a near-neutral charge, is a novel CPP-modified lipid that enhances the intracellular translocation of nanoparticles. However, the cellular association mechanism of KK-(EK)4-lipid is unknown. Therefore, we synthesized (EK)n-lipid derivatives based on the sequence of KK-(EK)4-lipid and determined the sequence sites involved in cellular association. In addition, KK-(EK)4-lipid was applied to extracellular vesicles (EVs) and mRNA encapsulated lipid nanoparticles (mRNA-LNPs). KK-(EK)4-lipid-modified EVs and mRNA-LNPs showed higher cellular association and in vitro protein expression, respectively, compared to unmodified ones. We elucidated KK-(EK)4-lipid to have potential for applicability in the intracellular delivery of liposomes, EVs, and mRNA-LNPs

Trapping of CDC42 C-terminal variants in the Golgi drives pyrin inflammasome hyperactivation

CDC42-C末端異常症に於ける炎症病態を解明 --ゴルジ体への異常蓄積がパイリンインフラマソーム形成を過剰促進--. 京都大学プレスリリース. 2022-05-02.Mutations in the C-terminal region of the CDC42 gene cause severe neonatal-onset autoinflammation. Effectiveness of IL-1β–blocking therapy indicates that the pathology involves abnormal inflammasome activation; however, the mechanism underlying autoinflammation remains to be elucidated. Using induced-pluripotent stem cells established from patients carrying CDC42[R186C], we found that patient-derived cells secreted larger amounts of IL-1β in response to pyrin-activating stimuli. Aberrant palmitoylation and localization of CDC42[R186C] protein to the Golgi apparatus promoted pyrin inflammasome assembly downstream of pyrin dephosphorylation. Aberrant subcellular localization was the common pathological feature shared by CDC42 C-terminal variants with inflammatory phenotypes, including CDC42[*192C*24] that also localizes to the Golgi apparatus. Furthermore, the level of pyrin inflammasome overactivation paralleled that of mutant protein accumulation in the Golgi apparatus, but not that of the mutant GTPase activity. These results reveal an unexpected association between CDC42 subcellular localization and pyrin inflammasome activation that could pave the way for elucidating the mechanism of pyrin inflammasome formation

A地区の自主防災力を高める保健師の支援

A地区における防災に関するニーズをもとに開催した防災講習会が住民の意識に与える影響および自主防災力を高めるための保健師の支援について検討した。地域の組織・団体へのインタビュー調査やA地区住民に対するアンケー結果をもとに、ニーズを反映した講習会を開催し、開催後にアンケートを実施した。各地域の組織・団体は「自主防災組織の発展」、「市や消防団との連携体制」を望んでいた。また、住民のニーズや防災講習会をとおして、①平均自立期間延伸のための取り組み、②住民組織間の連携の強化、③人材発掘、④ニーズの把握、⑤継続的かつ体験型の防災活動の実施等の保健師の支援が必要といえた

GENIUS II: a high-throughput database system for linking ORFs in complete genomes to known protein three-dimensional structures.

*To whom correspondence should be addressed

Investigation of enhanced intracellular delivery of nanomaterials modified with novel cell-penetrating zwitterionic peptide-lipid derivatives

AbstractFunctionalized drug delivery systems have been investigated to improve the targetability and intracellular translocation of therapeutic drugs. We developed high functionality and quality lipids that met unique requirements, focusing on the quality of functional lipids for the preparation of targeted nanoparticles using microfluidic devices. While searching for a lipid with high solubility and dispersibility in solvents, which is one of the requirements, we noted that KK-(EK)4-lipid imparts nonspecific cellular association to polyethylene glycol (PEG)-modified (PEGylated) liposomes, such as cell-penetrating peptides (CPPs). We investigated whether KK-(EK)4-lipid, which has a near-neutral charge, is a novel CPP-modified lipid that enhances the intracellular translocation of nanoparticles. However, the cellular association mechanism of KK-(EK)4-lipid is unknown. Therefore, we synthesized (EK)n-lipid derivatives based on the sequence of KK-(EK)4-lipid and determined the sequence sites involved in cellular association. In addition, KK-(EK)4-lipid was applied to extracellular vesicles (EVs) and mRNA encapsulated lipid nanoparticles (mRNA-LNPs). KK-(EK)4-lipid-modified EVs and mRNA-LNPs showed higher cellular association and in vitro protein expression, respectively, compared to unmodified ones. We elucidated KK-(EK)4-lipid to have potential for applicability in the intracellular delivery of liposomes, EVs, and mRNA-LNPs