Double-Chambered Ferritin Platform: Dual-Function Payloads of Cytotoxic Peptides and Fluorescent Protein.

Ferritin cage nanoparticles are promising platforms for targeted delivery of imaging and therapeutic agents. One of the main advantages of cage nanoparticles is the ability to display multiple functionalities through genetic modification so as to achieve desired therapeutic or diagnostic functions. Ferritin complexes formed from short ferritin (sFt) lacking the fifth helix can accommodate dual peptide and protein functionalities on N- and C-terminal sites in sFt monomers. The resulting double-chambered NanoCage (DCNC) offers the potential of dual activities; these activities are augmented by the avidity of the ligands, which do not impede each other's function. Here we demonstrated proof-of-concept of DCNCs, loading the tumor-targeting proapoptotic peptide CGKRK(KLAKLAK)2 onto the N-terminal chamber and green fluorescent protein (GFP) onto the C-terminal chamber. The resulting KLAK-sFt-GFP DCNCs were internalized into the human breast adenocarcinoma cell line MDA-MB-231 and induced apoptosis. These findings suggest that DCNCs containing various combinations of peptides and proteins could be applied as therapeutics in different diseases.

Cera-Glow, ferment lysates of Lacticaseibacillus rhamnosus IDCC 3201, improves skin barrier function in clinical study.

BACKGROUND: Ceramides are essential lipids in stratum corneum for skin permeability barrier function in that they retain the skin moisture and protect from the invasion of foreign pathogens. Previously, we demonstrated that ferment lysates of Lacticaseibacillus rhamnosus IDCC 3201 enhanced ceramide production in human epidermal keratinocytes. Furthermore, for comprehensive knowledge of this effect, in vitro experiments and multi-omics analysis were conducted to explore the underlying mechanisms. AIMS: This study was designed to identify whether a cosmetic sample (i.e., Cera-Glow) containing the lysates improves the skin barrier function in clinical trials. PATIENTS/METHODS: Twenty-four female participants (45.46 ± 9.78 years) had been enrolled in the transepidermal water loss (TEWL) measurement for 5 days and 21 female participants (50.33 ± 5.74 years) had undergone a skin hydration evaluation for 4 weeks. TEWL and skin hydration were evaluated using a Tewameter and the Epsilon Permittivity Imaging System, respectively. After applying the Cera-Glow sample, all participants recorded a satisfaction survey questionnaire (e.g., satisfaction, efficacy, and adverse reactions). RESULTS: Application of Cera-Glow significantly improved transepidermal water loss induced by 1% (w/v) sodium lauryl sulfate (p < 0.05-0.01) and increased skin hydration (p < 0.01). Metabolic analysis suggested that Cera-Glow should contain beneficial gradients for skin barrier function. According to the questionnaire, most of participants were satisfied with the skin hydration improvement and efficacy of Cera-Glow. CONCLUSIONS: Cera-Glow, ferment lysates of Lacticaseibacillus rhamnosus IDCC 3201, can significantly improve skin barrier function.