Marco Iannaccone

Two Plant Puroindolines Colocalize in Wheat Seed and in vitro Synergistically Fight Against Pathogens

Puroindolines, for years largely investigated for their involvement in wheat kernel hardness, have recently attracted attention thanks to their possible role as antimicrobial proteins. With the aim to enhance our knowledge of these proteins we studied their localization in the kernel, and their antimicrobial activity in vitro against six different bacterial strains. Immunolocalization showed that both the PINs are strongly concentrated in the aleurone layer, but also highly present in the endosperm. Interestingly we observed that puroindolines not only have the same spatial distribution in the kernel, they are also always found co-localized. Their co-localization suggests that they could cooperate in defending the plant against pathogens. We therefore tested antimicrobial activity of PINA and PINB, and a putative synergism between these proteins. The results showed that the two polypeptides can in vitro inhibit growth of all the bacteria tested; furthermore when combined together they are able to enhance each other’s toxicity. In view of their antimicrobial activity and of their natural presence in Triticum aestivum wheat flour, puroindolines look promising antibacterial agents and thus deserve further studies aimed at establishing their possible future applications in fields of food and health care. Since PINs were still detectable in bakery products, these proteins may be promising tools in investigating natural ways of food preservation.

Bacteriophage Therapy of Salmonella enterica: A Fresh Appraisal of Bacteriophage Therapy

BACKGROUND The most serious criticisms leveled at bacteriophage therapy are as follows: phages induce neutralizing antibodies, phages are active only when administered shortly after bacterial infection, and phage-resistant bacteria emerge rapidly in the course of therapy. METHODS Phages lytic for several Salmonella enterica serovars were isolated by means of standard protocols from feces of patients with gastroenteritis. Growth of S. enterica serovar Paratyphi B (Salp572(phi1S)) in the presence of phage phi1 (selected from among 8 phages for its larger host range) provided a phage phi1-resistant bacterial strain (Salp572(phi1R)). The properties of the Salp572(phi1S) and Salp572(phi1R) strains and of phage phi1 were studied in a mouse model of experimental infection. RESULTS Phages induced nonneutralizing antibodies and were active 2 weeks after experimental infection of mice; phage-resistant bacteria were avirulent and short lived in vivo. More importantly, phage-resistant bacteria were excellent vaccines, protecting against lethal doses of heterologous S. enterica serovars. CONCLUSIONS Phage therapy effectiveness has not yet been properly assessed.

Peptides from Royal Jelly: studies on the antimicrobial activity of jelleins, jelleins analogs and synergy with temporins

Peptides isolated from natural fonts are the object of several studies aimed at finding new molecules possessing antibacterial activity. We focused our studies on peptides originally isolated from the Royal Jelly, the jelleins and on some analogs having a UV reporter at the N‐ or C‐terminus. We found that jelleins are mainly active against gram‐positive bacteria; interestingly, they act in synergy with peptides belonging to the family of temporins such as temporin A and temporin B against Staphylococcus aureus A170 and Listeria monocytogenes. Copyright

Bacteriophage-Resistant Staphylococcus aureus Mutant Confers Broad Immunity against Staphylococcal Infection in Mice

In the presence of a bacteriophage (a bacteria-attacking virus) resistance is clearly beneficial to the bacteria. As expected in such conditions, resistant bacteria emerge rapidly. However, in the absence of the phage, resistant bacteria often display reduced fitness, compared to their sensitive counterparts. The present study explored the fitness cost associated with phage-resistance as an opportunity to isolate an attenuated strain of S. aureus. The phage-resistant strain A172 was isolated from the phage-sensitive strain A170 in the presence of the MSa phage. Acquisition of phage-resistance altered several properties of A172, causing reduced growth rate, under-expression of numerous genes and production of capsular polysaccharide. In vivo, A172 modulated the transcription of the TNF-α, IFN-γ and Il-1β genes and, given intramuscularly, protected mice from a lethal dose of A170 (18/20). The heat-killed vaccine also afforded protection from heterologous methicillin-resistant S. aureus (MRSA) (8/10 mice) or vancomycin-intermediate S. aureus (VISA) (9/10 mice). The same vaccine was also effective when administered as an aerosol. Anti-A172 mouse antibodies, in the dose of 10 µl/mouse, protected the animals (10/10, in two independent experiments) from a lethal dose of A170. Consisting predominantly of the sugars glucose and galactose, the capsular polysaccharide of A172, given in the dose of 25 µg/mouse, also protected the mice (20/20) from a lethal dose of A170. The above results demonstrate that selection for phage-resistance can facilitate bacterial vaccine preparation.

Role Played by Human Mannose-Binding Lectin Polymorphisms in Pulmonary Tuberculosis

BACKGROUND Mannose-binding lectin (MBL) activates the complement system in an antibody-independent manner, enhances complement-mediated phagocytosis, and plays a major role in the regulation of inflammatory cytokine release by monocytes. METHODS Case patients (277 patients with pulmonary tuberculosis) and control subjects (288 household contacts) were tested by polymerase chain reaction (PCR) for polymorphisms at the promoter and the exon 1 regions of the MBL gene. Diagnosis of pulmonary tuberculosis, based on findings from chest radiography and sputum smear examination, was confirmed by PCR and bacteriological tests. RESULTS HYA/HYA subjects were protected against tuberculosis (odds ratio [OR], 0.09 [95% confidence interval {CI}], 0.023-0.408; P < 1 X 10 (-6)). LYB/LYD subjects were susceptible to disease (OR, 49 [95% CI, 2.9-812.5]; P < 1 X 10(-6)). CONCLUSIONS This study supports the conclusion that MBL can protect or predispose the host to tuberculosis, depending on the hosts haplotype pair.

Synergistic antibacterial and anti-inflammatory activity of temporin A and modified temporin B in vivo.

Temporins are antimicrobial peptides secreted by the granular glands of the European red frog (Rana temporaria). They are 10–14 amino acid long polypeptides active prevalently against gram positive bacteria. This study shows that a synthetic temporin B analogue (TB-YK), acquires the capacity to act in synergism with temporin A and to exert antimicrobial and anti-inflammatory activity in vivo against gram positive and gram negative bacteria. Administration of 3.4 mg/Kg of temporin A (TA)+1.6 mg/Kg TB-YK, given to individual mice concurrently with a lethal dose of bacteria (gram positive or negative), rescued 100% of the animals. More importantly, the same doses of temporins, administered one week after experimental infection with a sub lethal dose of bacteria, sterilized 100% of the animals within 3–6 days. Also, it is described an animal model based on the use of sub lethal doses of bacteria, which closely mimics bacterial infection in humans. The model offers the possibility to test in a preclinical setting the true potential of TA and TB-YK in combination as antimicrobial and anti-inflammatory agents.

New perspectives for natural antimicrobial peptides: application as antinflammatory drugs in a murine model

BackgroundAntimicrobial peptides (AMPs) are an ancient group of defense molecules. AMPs are widely distributed in nature (being present in mammals, birds, amphibians, insects, plants, and microorganisms). They display bactericidal as well as immunomodulatory properties. The aim of this study was to investigate the antimicrobial and anti-inflammatory activities of a combination of two AMPs (temporin B and the royal jellein I) against Staphylococcus epidermidis.ResultsThe temporin B (TB-KK) and the royal jelleins I, II, III chemically modified at the C terminal (RJI-C, RJII-C, RJIII-C), were tested for their activity against 10 different Staphylococcus epidermidis strains, alone and in combination. Of the three royal jelleins, RJI-C showed the highest activity. Moreover, the combination of RJI-C and TB-KK (MIX) displayed synergistic activity. In vitro, the MIX displayed low hemolytic activity, no NO2- production and the ability to curb the synthesis of the pro-inflammatory cytokines TNF-α and IFN-γ to the same extent as acetylsalicylic acid. In vivo, the MIX sterilized mice infected with Staphylococcus epidermidis in eleven days and inhibited the expression of genes encoding the prostaglandin-endoperoxide synthase 2 (COX-2) and CD64, two important parameters of inflammation.ConclusionThe study shows that the MIX – a combination of two naturally occurring peptides - displays both antimicrobial and anti-inflammatory activities.

Experimental antibacterial therapy with puroindolines, lactoferrin and lysozyme in Listeria monocytogenes-infected mice.

Puroindoline A and puroindoline B from plant seeds, bovine lactoferrin and chicken eggs lysozyme are antimicrobial proteins of innate immune system that lyse invading organisms. We investigate their potential antibacterial activity against Listeria monocytogenes in a mouse model. Bacteria were isolated from various organs for 7 days after challenge. Livers displayed consistently higher bacterial count (up to 10(7)cfu/g) than spleens, kidneys and brains. The efficacy of the AMPs was therefore established by measuring the infection level (cfu number) of these organs. Puroindoline A and puroindoline B (5mg/mouse), lactoferrin and lysozyme (1.25mg/mouse), intravenously injected individually, inhibited bacterial growth completely. Puroindoline A, puroindoline B and lactoferrin were effective when administered 24h before infection; lysozyme was effective at the time of infection or 5 days after. Their combined use resulted in the enhancement of individual antibacterial activities. Complete inhibition of bacterial growth was observed using concurrently 0.059mg/mouse of puroindoline A and 0.019mg/mouse of puroindoline B, lactoferrin and lysozyme. Individual antimicrobial proteins reduced significantly the expression level of pro-inflammatory cytokines (IL-6, IL-8, INF-gamma and TNF-alpha), acute phase proteins (C-reactive protein and fibrinogen) and the T lymphocyte antigens CD4, CD8a, CD8b and CD25. These results suggest their potential use for the control of L. monocytogenes infections.

A new flow cytometry technique to identify Phaeomoniella chlamydospora exopolysaccharides and study mechanisms of esca grapevine foliar symptoms.

A flow cytometry technique that unequivocally identifies some of the toxic metabolites produced by Phaeomoniella chlamydospora, one of the main fungal pathogens causing esca disease of grapevine (Vitis vinifera), was developed. Antibodies raised against exopolysaccharides (EPS)-metabolites produced by Pa. chlamydospora that have been reported to be phytotoxic-were used as antigen to immunize rats. The specificity of these antibodies was assayed by flow cytometry against Pa. chlamydospora polysaccharides and against EPS with a different structure isolated from other phytopathogenic fungi, including Phaeoacremonium aleophilum and the Botryosphaeriaceae species Neofusicoccum luteum and N. parvum. Using this method, Pa. chlamydospora polysaccharides were detected in the symptomatic leaves of esca-affected grapevines, while healthy and asymptomatic leaves from both healthy and diseased vines did not produce a binding reaction. This method potentially could be used to develop a simple kit to study the mechanisms underlying the development of esca foliar symptoms and to indirectly assess the presence of Pa. chlamydospora in grapevine material.

Heterogeneous shedding of Brucella abortus in milk and its effect on the control of animal brucellosis.

Aims:  To ascertain whether in Brucella abortus‐infected water buffalo herds, the number of newly infected animals could be reduced by culling superspreaders (the animals secreting ≥104 CFU per ml of milk).