Laura Spanò

Differential expression of saporin genes upon wounding, ABA treatment and leaf development

Saporins are type 1 ribosome-inactivating proteins (RIPs: EC 3.2.2.22) produced in various organs of Saponaria officinalis L. Two distinct saporin types, saporin-L and saporin-S isoforms, were respectively purified from the intra- and extra-cellular fractions of soapwort leaves. The saporin-L isoform was lowly identical, differed for toxicity, molecular mass and amino acid composition from saporin-S proteins forming a new monophyletic group. Genes encoding both L- and S-type isoforms were cloned from leaf-specific cDNA library; the encoded products included the N-terminal diversity observed by protein sequencing and showed compatible weights with those from mass spectra. These genes were intron-less belonging to small gene families. Reverse transcription polymerase chain reaction/quantitative reverse transcription polymerase chain reaction experiments evidenced their differential expression during leaf development, wounding and abscisic acid treatment. These results suggest that the saporin-L and -S proteins may play diversified roles during stress responses.

Peach [Prunus persica (L.) Batsch] KNOPE1, a class 1 KNOX orthologue to Arabidopsis BREVIPEDICELLUS/KNAT1, is misexpressed during hyperplasia of leaf curl disease

Class 1 KNOTTED-like (KNOX) transcription factors control cell meristematic identity. An investigation was carried out to determine whether they maintain this function in peach plants and might act in leaf curliness caused by the ascomycete Taphrina deformans. KNOPE1 function was assessed by overexpression in Arabidopsis and by yeast two-hybrid assays with Arabidopsis BELL proteins. Subsequently, KNOPE1 mRNA and zeatin localization was monitored during leaf curl disease. KNOPE1 and Arabidopsis BREVIPEDICELLUS (BP) proteins fell into the same phyletic group and recognized the same BELL factors. 35S:KNOPE1 Arabidopsis lines exhibited altered traits resembling those of BP-overexpressing lines. In peach shoot apical meristem, KNOPE1 was expressed in the peripheral and central zones but not in leaf primordia, identically to the BP expression pattern. These results strongly suggest that KNOPE1 must be down-regulated for leaf initiation and that it can control cell meristem identity equally as well as all class 1 KNOX genes. Leaves attacked by T. deformans share histological alterations with class 1 KNOX-overexpressing leaves, including cell proliferation and loss of cell differentiation. Both KNOPE1 and a cytokinin synthesis ISOPENTENYLTRANSFERASE gene were found to be up-regulated in infected curled leaves. At early disease stages, KNOPE1 was uniquely triggered in the palisade cells interacting with subepidermal mycelium, while zeatin vascular localization was unaltered compared with healthy leaves. Subsequently, when mycelium colonization and asci development occurred, both KNOPE1 and zeatin signals were scattered in sectors of cell disorders. These results suggest that KNOPE1 misexpression and de novo zeatin synthesis of host origin might participate in hyperplasia of leaf curl disease.

Mutants of plant genes for developing cancer vaccines

Preventive Human Papillomavirus (HPV) vaccination is an expensive practice and it may be an insufficient tool to tackle cervical cancer worldwide. Therapeutic intervention is seeking for safe/effective vaccines inducing the activation of CD8+ cytotoxic T lymphocytes (CTLs) that is required to clear the tumor. Linking a tumor-specific antigen (i.e. the E7 oncoprotein of the ‘high risk’ HPVs) to molecules able to increase its immune ‘visibility’ represents a strategy to force the immune system to fight cancer. We focused on plants as sources of innovative immunostimulatory sequences. We have already shown the anti-cancer activity obtained by fusing E7GGG (a mutagenized E7 gene from the high risk HPV type 16) to the coat protein of a plant virus, the Potato Virus X. We are now investigating plant-derived carriers, such as the ‘Ribosome inactivating proteins’ (RIPs), so far used to develop immunotoxins for targeted cancer therapy. Beside toxicity, RIPs have other features (i.e. immunogenicity, ability to modulate immune functions and apoptosis induction) that could be useful tools to use in tumor immunotherapy. A non toxic mutant of saporin (SAP-KQ) was used as a carrier for the E7GGG gene in the context of a DNA-based vaccine. We show here that fusion constructs of SAP-KQ with E7GGG can induce E7-specific Immunoglobulins (IgGs), CTLs and Delayed-Type Hypersensitivity (DTH) affecting the growth of E7-expressing tumors in mice. These data demonstrate that mutant plant genes hold promise to improve the poor immunogenicity of tumor-associated cancer antigens and could contribute to the evolution of new cancer immunotherapy.

Interactions between saporin, a ribosome-inactivating protein, and DNA: a study by atomic force microscopy

Saporins are enzymes belonging to the PNAG class (polynucleotide: adenosine glycosidase), plant enzymes commonly known as ribosome‐inactivating proteins (RIP), as a result of their property of irreversibly damaging eukaryotic ribosomes. Direct imaging with tapping‐mode atomic force microscopy (AFM) has been used to study pGEM‐4Z plasmid DNA binding to the saporin‐SO6 (isoform from Saponaria officinalis seeds). Saporin wrapped the plasmidic DNA, and distribution of the enzyme molecules along the DNA chain was markedly variable; plasmid digested with saporin‐SO6 appeared fragmented or topologically modified. The supercoiled DNA strands were cleaved, giving rise to a linearized form and to relaxed forms. Electrophoretic analysis of the effect of standard preparations of saporin‐SO6 on pGEM‐4S confirmed the presence of DNA strand‐cleaving activity.

A simple method for the purification of type 1 RIPs.

We describe a straightforward and simple method for obtaining pure and active preparations of type 1 ribosome inactivating proteins (RIPs). The very high isoelectric point values, characteristic of these proteins, allow this purification in a single chromatographic step.

Antiproliferative effect and apoptotic response in vitro of human melanoma cells to liposomes containing the ribosome-inactivating protein luffin

The present study describes the liposome-mediated delivery of the type 1 ribosome-inactivating protein luffin to human melanoma cells in vitro. Luffin from Luffa cylindrica seeds has been successfully incorporated into lecithin/cholesterol and lecithin/cholesterol/dicetylphosphate negatively charged liposomes. The exposure of melanoma cells to the two types of liposomes resulted in the inhibition of protein synthesis and cell growth; apoptotic cell death was verified by means of TUNEL reaction and quantitation of cytosolic oligonucleosome-bound DNA. The toxicity of encapsulated luffin varied with the lipid composition of the vesicles; the strongest effect was observed with lecithin/cholesterol liposomes. These results identify liposome-incorporated luffin as a possible alternative to immunotoxins for the treatment of human melanoma in situ.

In vitro plant regeneration and clonal micropropagation of Leontopodium nivale (Ten.) Heut ex Hand.‐Mazz. (Asteraceae)

Abstract An in vitro micropropagation method was developed for Leontopodium nivale (Ten.) Heut ex Hand.‐Mazz., an endemic species of the central Apennines, which is, at present, an endangered plant due to indiscriminate collecting carried out by tourists. Callus induction was obtained from cotyledons of in vitro germinated seeds on medium containing 2,4‐dichlorophenoxyacetic acid, and the regeneration of shoots was readily achieved using 6‐benzylaminopurine at concentrations ranging from 0.5 to 2.0 mg/L. After rooting on auxin‐containing media, plantlets were transferred to hydroponics for acclimation, and then to soil. Abbreviations: 6‐BAP, 6‐benzylaminopurine; 2,4‐D, 2,4‐dichlorophenoxyacetic acid; IAA, indole‐3‐acetic acid; Kin, kinetin; MS, Murashige and Skoog medium; NAA, 1‐naphthaleneacetic acid

NUCLEAR DAMAGE INDUCED BY LIPOSOMES CONTAINING FITC-LABELLED SAPORIN ON HUMAN MELANOMA CELLS IN VITRO

Ribosome-inactivating proteins are enzymes of plant origin which de-adenilate the major ribosomal RNA, making it unable to bind the elongation factor and thus arresting protein synthesis. Recently the N-glycosidase activity of these enzymes has been extended also to deoxyribonucleotides substrates. In the present study we report the successful entrapment of the type 1 ribosome-inactivating protein saporin, covalently labelled with fluorescein isothiocyanate (FITC) into L-α lecitin/cholesterol liposomes and describe its delivery to human melanoma cells in vitro. The fluorescein reacted toxin maintained its enzymatic activity, although to a reduced extent; its interaction with liposomes resulted in the entry of the protein through the lipid bilayers. The resulting vesicles are carriers that can deliver the toxin inside cells; as a consequence the cytotoxic effects of the encapsulated enzyme were evident at a concentration two order of magnitude lower than that of the native one. In particular the nuclear damage, as revealed by micronuclei formation, was evident within 44 hr. The intracellular dynamics of the enzyme, as analyzed by confocal microscopy, point to an endocytic pathway of vesicles entry.

Transcriptomics of tomato plants infected with TYLCSV or expressing the central TYLCSV Rep protein domain uncover changes impacting pathogen response and senescence.

To establish a successful infection viruses need to overcome plant innate immune responses and redirect host gene expression for their multiplication and diffusion. Tomato yellow leaf curl Sardinia virus (TYLCSV) is a geminivirus, which causes significant economic losses in tomato. The multifunctional replication associated geminivirus protein (Rep) has an important role during viral infection. In particular, the Rep central domain spanning from aa 120 to 180 is known to interact with viral and host factors. In this study, we used long serial analysis of gene expression to analyse the transcriptional profiles of transgenic tomato plants expressing the first 210 amino acids of TYLCSV Rep (Rep210) and TYLCSV-infected wild-type tomato plants (Wt-Ty). Also, we compared these profiles with those of transgenic Rep130 tomatoes. Comparison of Wt-Ty and Rep210 libraries with the wild-type one identified 118 and 203 differentially expressed genes (DEGs), respectively. Importantly, 55% of Wt-Ty DEGs were in common with Rep210, and no ones showed opposite expression. Conversely, a negligible overlap was found between Rep130 DEGs and Wt-Ty and Rep210 ones. TYLCSV- and Rep210-repressed genes, but not induced ones, overlapped with the leaf senescence process. Interestingly, TYLCSV upregulates expression of genes involved in the negative regulation of programmed cell death (PCD), several of which were also regulated by the abscisic acid. Rep210 upregulated genes related to defence response, immune system processes and negative regulation of PCD. Collectively, our results support a model in which the Rep central domain has a pivotal role in redirecting host plant gene expression.

Saporin production from in vitro cultures of the soapwort Saponaria officinalis L.

Abstract We report here the successful establishment of callus, cell and root cultures from explants of in-vitro-grown plantlets of the soapwort Saponaria officinalis L. The production of saporin in the different tissue systems was evaluated by determining the capability of crude extracts to inactivate protein synthesis and by Western blotting analysis. Protein synthesis inhibition varied in callus and derived cell suspensions and in cultured roots, the latter, in particular, showing the lowest specific activity. The ribosome-inactivating principle from root cultures was purified to homogeneity by cation exchange chromatography.