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Human LL-29

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Human LL-29 is an antibacterial peptide isolated from Homo sapiens.

Category
Functional Peptides
Catalog number
BAT-012425
Synonyms
Leu-Leu-Gly-Asp-Phe-Phe-Arg-Lys-Ser-Lys-Glu-Lys-Ile-Gly-Lys-Glu-Phe-Lys-Arg-Ile-Val-Gln-Arg-Ile-Lys-Asp-Phe-Leu-Arg
Sequence
LLGDFFRKSKEKIGKEFKRIVQRIKDFLR
1. On-resin cleavage of bacterially expressed fusion proteins for purification of active recombinant peptides SK-29, KR-20, LL-29, and LL-23 from human sweat or skin
Yifeng Li, Xia Li, Guangshun Wang Protein Expr Purif. 2007 Oct;55(2):395-405. doi: 10.1016/j.pep.2007.04.023. Epub 2007 May 10.
Post-translational processing of host defense cathelicidin peptide LL-37 in human sweat and skin generates new antimicrobial peptides. To understand structure and mechanism of action of these LL-37 derivatives, this article presents the cloning and expression of SK-29, KR-20, LL-29, and LL-23. We also provide a two-step chromatographic purification protocol of general use. First, resin-bound fusion proteins were directly subject to efficient upstream thrombin cleavage to release peptide-containing fragments. The resin, resin-bound carrier, and residual uncut fusion proteins were subsequently removed by centrifugation. Second, the peptide-containing fragments were digested with formic acid to release the required peptides followed by reverse-phase HPLC purification. We obtained 1.7 mg of recombinant SK-29, 0.7 mg KR-20, 2.1mg LL-29, and 5.4 mg LL-23, each from one liter of rich medium culture. Analytical HPLC, MS, and NMR indicated high quality of all the purified peptides. Antibacterial assays revealed the minimum inhibitory concentrations (MIC) for SK-29, KR-20, LL-29, and LL-23 are 80, 60, 40, and >150 microM, respectively. The poorest toxicity of LL-23 to Escherichia coli K12 correlates with its higher level of bacterial expression, reduced aggregation tendency, and loss of binding to a yet-to-be-characterized molecular target. Thus, on-resin protein cleavage facilitates the evaluation of peptide aggregation ability and may allow the identification of potential new bacterial targets of antimicrobial peptides. On-resin cleavage may be applied to the release of membrane proteins expressed as fusions.
2. LL-37 peptide enhancement of signal transduction by Toll-like receptor 3 is regulated by pH: identification of a peptide antagonist of LL-37
Divyendu Singh, Robert Vaughan, C Cheng Kao J Biol Chem. 2014 Oct 3;289(40):27614-24. doi: 10.1074/jbc.M114.582973. Epub 2014 Aug 4.
LL-37 is a peptide secreted by human epithelial cells that can lyse bacteria, suppress signaling by Toll-like receptor 4 (TLR4), and enhance signaling to double-stranded RNA (dsRNA) by TLR3. How LL-37 interacts with dsRNA to affect signal transduction by TLR3 is not completely understood. We determined that LL-37 binds dsRNA and traffics to endosomes and releases the dsRNA in a pH-dependent manner. Using dynamic light scattering spectroscopy and cell-based FRET experiments, LL-37 was found to form higher order complexes independent of dsRNA binding. Upon acidification LL-37 will dissociate from a larger complex. In cells, LL-37 has a half-live of ~ 1 h. LL-37 half-life was increased by inhibiting endosome acidification or inhibiting cathepsins, which include proteases whose activity are activated by endosome acidification. Residues in LL-37 that contact poly(I:C) and facilitate oligomerization in vitro were mapped. Peptide LL-29, which contains the oligomerization region of LL-37, inhibited LL-37 enhancement of TLR3 signal transduction. LL-29 prevented LL-37 · poly(I:C) co-localization to endosomes containing TLR3. These results shed light on the requirements for LL-37 enhancement of TLR3 signaling.
3. Ginsenoside Rg3 inhibits pulmonary fibrosis by preventing HIF-1α nuclear localisation
Zhuo Fu, Yong-Sheng Xu, Chun-Quan Cai BMC Pulm Med. 2021 Feb 27;21(1):70. doi: 10.1186/s12890-021-01426-5.
Background: Excessive fibroblast proliferation during pulmonary fibrosis leads to structural abnormalities in lung tissue and causes hypoxia and cell injury. However, the mechanisms and effective treatment are still limited. Methods: In vivo, we used bleomycin to induce pulmonary fibrosis in mice. IHC and Masson staining were used to evaluate the inhibitory effect of ginsenoside Rg3 in pulmonary fibrosis. In vitro, scanning electron microscopy, transwell and wound healing were used to evaluate the cell phenotype of LL 29 cells. In addition, biacore was used to detect the binding between ginsenoside Rg3 and HIF-1α. Results: Here, we found that bleomycin induces the activation of the HIF-1α/TGFβ1 signalling pathway and further enhances the migration and proliferation of fibroblasts through the epithelial mesenchymal transition (EMT). In addition, molecular docking and biacore results indicated that ginsenoside Rg3 can bind HIF-1α. Therefore, Ginsenoside Rg3 can slow down the progression of pulmonary fibrosis by inhibiting the nuclear localisation of HIF-1α. Conclusions: This finding suggests that early targeted treatment of hypoxia may have potential value in the treatment of pulmonary fibrosis.
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