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All product information available on this website is for educational purposes only. Any form of bodily introduction into humans or animals is strictly prohibited by law. This product should only be handled by licensed and qualified professionals. It is not a drug, food, or cosmetic, and must not be misbranded, misused, or mislabeled as such.

LL-37 (CAP-18) 5mg

NOTE: In some cases wherein the assigned top colors are out of stock, a different top color will be used to ensure that your order will not be delayed.

Peptides are stable at room temperature and can be stored in their original packaging for several days to weeks. For longer storage, keep them at 4 °C or colder, away from intense light. Do not shake peptides before or after reconstitution, refrigerate them, and handle with care.

LL-37 5mg should be reconstituted with bacteriostatic water (BAC).

You can purchase BAC water here:
BAC 10ml 

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LL-37 (CAP-18) is the active C-terminal peptide derived from human cathelicidin, the sole cathelicidin-family antimicrobial peptide encoded in the human genome. Research interest centers on its dual function as both a direct membrane-disrupting antimicrobial agent and an immunomodulatory signalling molecule engaging multiple receptor pathways. Research applications include innate immune signalling studies, antimicrobial peptide membrane-interaction research, and formyl peptide receptor (FPR2) pathway investigation.

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3D Molecular Structure

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LL-37 (CAP-18) 5mg1 vial | KIT (10 vials)
Chemical Formula C205H340N60O53
Synonyms Cathelicidin, ropocamptide, Bac4, Cathelicidin antimicrobial peptide 18
Molar Mass 4493 g/mol
CAS Number 154947
PubChem CID 16198951
Total Compound Content 5mg (1 vial)
Shelf Life 36 months
LL-37 is a 37-residue amphipathic alpha-helical peptide cleaved from the precursor protein hCAP-18, and is studied for two distinct but related activities: direct antimicrobial action via membrane permeabilisation of bacterial cell envelopes, and immunomodulatory signalling through host receptors including formyl peptide receptor 2 (FPR2), P2X7 purinergic receptor, and epidermal growth factor receptor (EGFR) transactivation pathways. In vitro models examine LL-37's chemotactic effects on immune cells (neutrophils, monocytes, mast cells), its capacity to neutralise bacterial endotoxin (LPS), and its role in wound-healing-associated cell migration and angiogenesis signalling. Membrane-interaction biophysics (using model lipid bilayers) and cell-based immune signalling assays are standard experimental approaches for this peptide. Independently third-party HPLC-tested; COA available per batch.

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What is the proposed dual mechanism of LL-37's antimicrobial and immunomodulatory activity?

LL-37's antimicrobial mechanism involves direct insertion into and disruption of bacterial cell membranes via its amphipathic alpha-helical structure, a mechanism studied using model lipid bilayer and liposome leakage assays. Separately, LL-37 engages host cell surface receptors — including FPR2, P2X7, and EGFR transactivation pathways — to modulate immune cell chemotaxis, cytokine release, and cell migration, representing a receptor-mediated signalling mechanism distinct from its direct membrane-disrupting antimicrobial action. Research distinguishing these two activities typically uses peptide fragments or receptor antagonists to isolate which mechanism drives a given experimental endpoint.

What cell-based assays are used to study LL-37's chemotactic and immunomodulatory effects?

Standard approaches include transwell migration assays to quantify LL-37-induced chemotaxis of neutrophils, monocytes, or mast cells, alongside cytokine/chemokine release assays (ELISA, multiplex) following LL-37 exposure in immune cell culture models. FPR2-specific signalling is often confirmed using selective FPR2 antagonists or receptor-knockdown approaches to establish receptor dependence of the observed chemotactic or signalling response.

How is LL-37's membrane-disrupting antimicrobial mechanism studied using biophysical methods?

Model lipid bilayer systems — including liposome dye-leakage assays, planar lipid bilayer electrophysiology, and circular dichroism spectroscopy to monitor peptide secondary structure upon membrane association — are standard biophysical methods for characterising LL-37's membrane interaction and permeabilisation kinetics. These methods allow researchers to correlate peptide concentration, lipid composition (mimicking bacterial versus mammalian membranes), and resulting membrane disruption, providing mechanistic insight into the peptide's selectivity for bacterial over host cell membranes.

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