Sabrina Pacor scite author profile

SummaryIn contrast to many antimicrobial peptides, members of the proline-rich group of antimicrobial peptides inactivate Gram-negative bacteria by a non-lytic mechanism. Several lines of evidence indicate that they are internalized into bacteria and their activity mediated by interaction with unknown cellular components. With the aim of identifying such interactors, we selected mutagenized Escherichia coli clones resistant to the proline-rich Bac7(1-35) peptide and analysed genes responsible for conferring resistance, whose products may thus be involved in the peptide's mode of action. We isolated a number of genomic regions bearing such genes, and one in particular coding for SbmA, an inner membrane protein predicted to be part of an ABC transporter. An E. coli strain carrying a point mutation in sbmA, as well as other sbmA-null mutants, in fact showed resistance to several proline-rich peptides but not to representative membranolytic peptides. Use of fluorescently labelled Bac7(1-35) confirmed that resistance correlated with a decreased ability to internalize the peptide, suggesting that a bacterial protein, SbmA, is necessary for the transport of, and for susceptibility to, proline-rich antimicrobial peptides of eukaryotic origin.

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The human cathelicidin LL-37 — A pore-forming antibacterial peptide and host-cell modulator

Xhindoli

Pacor

Benincasa

et al. 2016

Biochimica et Biophysica Acta (BBA) - Biomembranes

292

231

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The human cathelicidin hCAP18/LL-37 has become a paradigm for the pleiotropic roles of peptides in host defence. It has a remarkably wide functional repertoire that includes direct antimicrobial activities against various types of microorganisms, the role of 'alarmin' that helps to orchestrate the immune response to infection, the capacity to locally modulate inflammation both enhancing it to aid in combating infection and limiting it to prevent damage to infected tissues, the promotion of angiogenesis and wound healing, and possibly also the elimination of abnormal cells. LL-37 manages to carry out all its reported activities with a small and simple, amphipathic, helical structure. In this review we consider how different aspects of its primary and secondary structures, as well as its marked tendency to form oligomers under physiological solution conditions and then bind to molecular surfaces as such, explain some of its cytotoxic and immunomodulatory effects. We consider its modes of interaction with bacterial membranes and capacity to act as a pore-forming toxin directed by our organism against bacterial cells, contrasting this with the mode of action of related peptides from other species. We also consider its different membrane-dependent effects on our own cells, which underlie many of its other activities in host defence. This article is part of a Special Issue entitled: Pore-Forming Toxins edited by Mauro Dalla Serra and Franco Gambale.

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The hydrolysis of the anti-cancer ruthenium complex NAMI-A affects its DNA binding and antimetastatic activity: an NMR evaluation

Bacac

Hotze

Schilden

et al. 2004

Journal of Inorganic Biochemistry

166

153

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Dual mode of action of Bac7, a proline-rich antibacterial peptide

Podda¹,

Benincasa²,

Pacor³

et al. 2006

Biochimica et Biophysica Acta (BBA) - General Subjects

116

137

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Fungicidal activity of five cathelicidin peptides against clinically isolated yeasts

Benincasa

Scocchi

Pacor

et al. 2006

Journal of Antimicrobial Chemotherapy

126

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Sabrina Pacor

Role of the Escherichia coli SbmA in the antimicrobial activity of proline‐rich peptides

The human cathelicidin LL-37 — A pore-forming antibacterial peptide and host-cell modulator

The hydrolysis of the anti-cancer ruthenium complex NAMI-A affects its DNA binding and antimetastatic activity: an NMR evaluation

Dual mode of action of Bac7, a proline-rich antibacterial peptide

Fungicidal activity of five cathelicidin peptides against clinically isolated yeasts

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