Discovery of a transdermally deliverable pentapeptide for activating AdipoR1 to promote hair growth.

Alopecia induced by aging or side effects of medications affects millions of people worldwide and impairs the quality of life; however, there is a limit to the current medications. Here, we identify a small transdermally deliverable 5-mer peptide (GLYYF; P5) that activates adiponectin receptor 1 (AdipoR1) and promotes hair growth. P5 sufficiently reproduces the biological effect of adiponectin protein via AMPK signaling pathway, increasing the expression of hair growth factors in the dermal papilla cells of human hair follicle. P5 accelerates hair growth ex vivo and induces anagen hair cycle in mice in vivo. Furthermore, we elucidate a key spot for the binding between AdipoR1 and adiponectin protein using docking simulation and mutagenesis studies. This study suggests that P5 could be used as a topical peptide drug for alleviating pathological conditions, which can be improved by adiponectin protein, such as alopecia.

Structural characterization of a putative diguanylate cyclase conserved in hyperthermophiles.

C-di-GMP, bis-(3'-5')-cyclic dimeric guanosine monophosphate, is a key signaling molecule that regulates many important physiological processes in bacteria. C-di-GMP is synthesized by diguanylate cyclase (DGC) containing the homodimeric GGDEF domain. There are many uncharacterized hypothetical proteins annotated as a putative DGC in bacteria including hyperthermophiles; however, their structures still remain unexplored. Here, we solved the crystal structure of the GGDEF-like domain of Tm0107 protein from Thermotoga maritima at a resolution of 2.1 Å, which shares sequence similarities with DGC proteins in other bacteria. Tm0107 consists of an N-terminal coiled-coil and C-terminal GGDEF-like domain. We showed that the GGDEF-like domain of Tm0107 exists as monomer in solution and is structurally similar to other GGDEF domains. Two zinc ions are coordinated at the interface between two Tm0107 monomers. Based on our measurements of the Stokes radii of Tm0107 by analytical gel filtration, we propose a dimer model of Tm0107 containing both the N-terminal coiled coil and C-terminal GGDEF-like domains. Based on the model, Tm0107 forms a homodimer in a manner different compared to other structurally characterized DGC proteins. These results provide useful structural information about putative DGC proteins containing protein sequences similar to that of Tm0107, which is widely conserved in hyperthermophiles.

Genome-wide analysis reveals specificities of Cpf1 endonucleases in human cells.

Programmable clustered regularly interspaced short palindromic repeats (CRISPR) Cpf1 endonucleases are single-RNA-guided (crRNA) enzymes that recognize thymidine-rich protospacer-adjacent motif (PAM) sequences and produce cohesive double-stranded breaks (DSBs). Genome editing with CRISPR-Cpf1 endonucleases could provide an alternative to CRISPR-Cas9 endonucleases, but the determinants of targeting specificity are not well understood. Using mismatched crRNAs we found that Cpf1 could tolerate single or double mismatches in the 3' PAM-distal region, but not in the 5' PAM-proximal region. Genome-wide analysis of cleavage sites in vitro for eight Cpf1 nucleases using Digenome-seq revealed that there were 6 (LbCpf1) and 12 (AsCpf1) cleavage sites per crRNA in the human genome, fewer than are present for Cas9 nucleases (>90). Most Cpf1 off-target cleavage sites did not produce mutations in cells. We found mismatches in either the 3' PAM-distal region or in the PAM sequence of 12 off-target sites that were validated in vivo. Off-target effects were completely abrogated by using preassembled, recombinant Cpf1 ribonucleoproteins.