1. New antimicrobial peptide kills drug-resistant pathogens without detectable resistance
Jong-Kook Lee, Tudor Luchian, Yoonkyung Park Oncotarget. 2018 Feb 26;9(21):15616-15634. doi: 10.18632/oncotarget.24582. eCollection 2018 Mar 20.
Clavaspirin peptide (CSP) is derived from the pharyngeal tissues of the tunicate Styela clava. The 23-amino acid peptide is histidine-rich and amidated at the N-terminus. CSP possesses low antimicrobial and high hemolytic activity at pH 7.4. Therefore, we designed 4 CSP analogs with substituted hydrophobic amino acids to reduce hydrophobic amino acid interactions. These modifications reduced the aggregation and cytotoxicity of the analogs at pH 7.4. The analogs also showed potent antimicrobial activity by accumulating on bacterial cell surfaces and inducing the lytic mechanism against gram-negative and gram-positive cells at pH 5.5 and 7.4. Moreover, exposure to the CSP-4 analog for up to 29 passages did not induce drug resistance in Staphylococcus aureus. Application of CSP-4 to inflamed skin of hairless mice infected with drug-resistant S. aureus (DRSA) significantly reduced skin infections without damaging dermal collagen or elastin. Topically applied CSP-4 penetrated 25-40 µm in the dermis within 30 min, reducing the levels of Toll-like receptor-2, nuclear factor kappa B (NF-κB), and the pro-inflammatory cytokines tumor necrosis factor- α (TNF-α) and interleukin-1β (IL-1 β). These results suggest that CSP-4 could be a promising topical antimicrobial agent for skin diseases caused by DRSA such as S. aureus CCARM 0027.
2. Natural Peptide antibiotics from tunicates: structures, functions and potential uses
Robert I Lehrer, J Andrew Tincu, Steven W Taylor, Lorenzo P Menzel, Alan J Waring Integr Comp Biol. 2003 Apr;43(2):313-22. doi: 10.1093/icb/43.2.313.
Because tunicates rely on innate immunity, their hemocytes are important contributors to host defense. Styela clava, a solitary ascidian, have eight hemocyte subtypes. Extracts of their total hemocyte population contained multiple small (2-4 kDa) antimicrobial peptides. When purified, these fell into two distinct families that were named styelins and clavanins.Styelins A-E are phenylalanine-rich, 32 residue peptides with activity against marine bacteria and human pathogens. They show considerable sequence homology to pleurocidins, antimicrobial peptides of the flounder, Pseudopleuronectes americanus. Styelin D, one of the five styelins identified by peptide isolation and cDNA cloning, was remarkable in containing 12 post-translationally modified residues, including a 6-bromotryptophan, two monohydroxylysines, four 3,4-dihydroxyphenylalanines (DOPA), four dihydroxylysines and one dihydroxyarginine. These modifications enhanced Styelin D's bactericidal ability at acidic pH and high salinity. A novel histochemical stain for DOPA suggested that Styelin D was restricted to granulocytes.Clavanins A-E are histidine-rich, 23 residue peptides that are C-terminally amidated and most effective at acidic pH. Clavaspirin is a newly described family member that also has potent cytotoxic properties. By immunocytochemistry, clavanins were identified in the granules of five eosinophilic granulocyte subtypes and in macrophage cytoplasm.Transmission and scanning electron micrographs of methicillin-resistant Staphylococcus aureus (MRSA) and E. coli that had been treated with Styelin D and clavaspirin suggested that both peptides induced osmotic disregulation. Treated bacteria manifested cytoplasmic swelling and extrusion of cytoplasmic contents through their peptidoglycan cell wall. The diverse array of antimicrobial peptides in S. clava hemocytes constitutes an effective host defense mechanism.
3. Clavaspirin, an antibacterial and haemolytic peptide from Styela clava
I H Lee, C Zhao, T Nguyen, L Menzel, A J Waring, M A Sherman, R I Lehrer J Pept Res. 2001 Dec;58(6):445-56.
We cloned the precursor of a novel peptide from a cDNA library prepared from pharyngeal tissues of the tunicate, Styela clava. Its sequence predicted a histidine-rich, amidated 23-residue peptide (FLRF(IG)SVIHGIGHLVHHIGVAL-NH2) that we named clavaspirin. A synthetic clavaspirin was prepared and it was found that it killed Gram-positive and Gram-negative bacteria, permeabilized the outer and inner membranes of Escherichia coli, lysed phosphatidylglycerol (POPG) liposomes, and was potently haemolytic towards human and bovine erythrocytes. Each of these activities was performed more effectively at an acidic pH. Circular dichroism measurements of synthetic clavaspirin revealed a largely alpha-helical structure and polarized and residue-specific FTIR spectrometry showed that its association with phospholipid membranes was influenced by pH. Peptides such as clavaspirin may equip tunicate haemocytes to mediate cytotoxicity and participate in antimicrobial defence.