Domenico Geraci

cDNA cloning, sequence analysis and allergological characterization of Par j 2.0101, a new major allergen of the Parietaria judaica pollen

A clone (P2) coding for an allergen of Parietaria judaica (Pj) pollen has been isolated and sequenced from a cDNA library in lambda ZAP using a pool of 23 sera from Pj‐allergic patients. The clone contained an insert of 622 nucleotides with an open reading frame of 133 amino acids (aa) and a putative signal peptide of 31 aa giving a deduced mature processed protein of 102 aa with a molecular mass of 11 344 Da. The expressed recombinant protein, named rPar j 2.0101, was a major allergen since it reacted with IgE of 82% (23/28) of the sera of Pj‐allergic subjects analyzed. It was shown to be a new allergen since (i) the amino acid sequence homology with the already reported recombinant allergen Par j 1.0101 was 45% and (ii) there was no cross‐inhibition between rPar j 2.0101 and rPar j 1.0101. In addition, rPar j 2.0101 inhibited 35% of the specific IgE for 10–14 kDa native allergens and preincubation of sera from Pj‐allergic patients with both rPar j 2.0101 and rPar j 1.0101 fully abolished the IgE recognition of the 10–14 kDa native allergen region, suggesting that these two allergens contributed to the region.

cDNA cloning, expression and primary structure of Par j I, a major allergen of Parietaria judaica pollen

A 659 bp cDNA clone1 coding for an allergen of Pj pollen has been isolated from a lambda gt11 library, and its DNA sequence determined. The cDNA insert showed an open reading frame of 429 bp coding for an allergenic protein of 14,866 Da and a deduced amino acid sequence containing 143 residues. The expressed recombinant protein represented the major allergen Par j I since it reacted with 95% of the sera from Pj‐allergic patients (n = 22) and with two Par j I‐specific monoclonal antibodies. No similarity with other known DNA and protein sequences has been detected.

The Allergens of Parietaria

Parietaria is a genus of dicotyledonous weeds of the Urticaceae family including several species and its pollen grain is one of the most important allergenic sources in the Mediterranean area. Species belonging to this genus induce IgE responses in approximately 10 million people. Identification of allergens by means of independent strategies suggest that the allergens of the two more common species, Parietaria judaica and Parietaria officinalis, show molecular weights ranging between 10 and 14 kD and that the allergens of the two extracts are highly cross-reactive. Biochemical analysis and molecular cloning allowed the isolation and immunological characterization of the two major allergens of the P. judaica pollen, Par j 1 and Par j 2. Sequence comparison suggests that the P j major allergens of P. judaica belong to the nonspecific lipid transfer protein family, and three-dimensional modeling by homology has revealed that both proteins present a very conserved structural motif composed of four α-helices. Immunological analysis has shown that Par j 1 and Par j 2 are able to bind most of the P. judaica-specific IgE and some of their IgE determinants have been mapped. Recombinant Par j 1 and Par j 2 allergens have been shown to possess immunological properties equivalent to their natural counterpart and their availability represents a fundamental tool for the diagnosis and therapy of Parietaria pollen allergy.

Isolation and characterization of two cDNA clones coding for isoforms of the Parietaria judaica major allergen Par j 1.0101

Two cDNA clones named P9* and P1* of 794 and 631 bp, respectively, were isolated from a lambda ZAP cDNA expression library using Parietaria judaica (Pj) pollen-specific IgE antibodies from a pool of sera (n = 23) of patients allergic to Pj. Sequence analysis showed open reading frames of 176 and 138 amino acids. Both clones contain a putative signal peptide giving two mature processed proteins named Par j 1.0102 of 14,726 D and Par j 1.0201 of 10,677 D. These proteins represent isoallergenic forms of the major Pj allergen Par j 1.0101 (clone P5) previously reported. The Par j 1.0102 shared 98% amino acid sequence homology with the P5, while the Par j 1.0201 shared 89% homology. Since P1, P5 and P9 clones were expressed in Escherichia coli, and since the three allergenic proteins shared a very high degree of sequence identity and comparable binding to the Pj-specific IgE, we decided to analyze in more detail the immunological properties of only one allergen, the recombinant Par j 1.0101. The allergenic activity determined by the histamine release assay ranged between 9 and 56%, depending on the allergic patient analyzed, while it blocked approximately 40% of all the Pj-specific IgE antibodies, as detected after ELISA and cross-absorption analysis.

Histamine and tumor necrosis factor-α production from purified rat brain mast cells mediated by substance P

The effect of cytokines and neuropeptides on neuroimmune functions has not been completely elucidated and recent evidence suggests an important role for these molecules linking the neuroimmune system and inflammatory events. The aim of this study was to analyse the effect of substance P (SP) on a pure population of hypothalamic brain mast cell (BMC). A pure population of BMC challenged with 10(-8) M SP gave 78% histamine release (HR) and secreted 600 pg/ml of tumor necrosis factor-alpha (TNF-alpha) as determined by ELISA. The production of TNF-alpha mRNA, measured by a competitive RT-PCR, was 14 times higher than that in unstimulated cells. The secretion of histamine and TNF-alpha from BMC after stimulation with SP supports the hypothesis that these mediators could induce an initial response in neuroinflammatory diseases.

Modulation of Rat Peritoneal Mast Cell and Human Basophil Histamine Release by Estrogens

This study was undertaken to investigate the effect of estrogens on the histamine release mediated by IgE in rat peritoneal mast cells (PMC) and in sensitized human basophils. The estrogens were found to enhance the histamine release of either rat PMC and sensitized human basophils upon stimulation with anti-IgE. The enhancement was estrogens dose-dependent reaching the maximum value of 23% for rat PMC and 41% for sensitized human basophils stimulated with anti-IgE upon preincubation with 10(-8) M estrogens. Moreover, when purified PMC were used, the enhancing effect was still detected, suggesting a direct interaction between estrogens and mast cells. The enhancing effect took place quite rapidly reaching plateau levels in about 60 min. Basophils preincubated at 4 instead of 37 degrees C did not give any appreciable enhancement, suggesting that it was temperature-dependent and that the effect observed was not due to cytotoxicity. Incubation of PMC or human basophils with estrogens alone, without challenge with anti-IgE, did not give any detectable histamine release. The enhancement of histamine release by estrogens is probably mediated by IgE molecules present on the cell membrane, since this effect was not observed on challenge with substance P or compound 48/80, two segretagogues known to induce histamine release not via IgE.

Effect of Substance P on uterine mast cell cytokine release during the reproductive cycle

There is increasing evidence that neuropeptides, steroid hormones and inflammatory cytokines influence the immune response during the reproductive cycle. In the present study, we focus on the effects of neuropeptide Substance P (SP) during the pre-implantation stage of embryo development (day 4 of pregnancy), at pro-estrus and di-estrus (two phases with different hormonal states). We found heterogeneous responses to SP and anti-IgE by the rat uterine mast cells (MCs), as detected by ELISA. In fact, MCs purified from uteri on day 4 of pregnancy released histamine, granulocyte macrophage-colony stimulating factor (GM-CSF) and tumor necrosis factor-alpha (TNF-alpha) in response to anti-IgE, but not to SP. When pre-incubated with SP, the release to anti-IgE was significantly enhanced compared to anti-IgE alone. Exposure of SP to antibodies to SP, prior to pre-incubation with MCs, negated the SP effect on IgE-mediated release. At the pro-estrus phase SP showed similar behavior as on day 4 of pregnancy, whereas at the di-estrus phase SP alone was capable of inducing release of histamine and cytokines from purified uterine MCs. Moreover, non-quantitative RT-PCR analysis of the TNF-alpha mRNA level suggested an SP stimulation at the di-estrus phase, but neither on day 4 of pregnancy nor at the pro-estrus phase. Taken together, these data strongly suggest that SP can modulate IgE-mediated uterine MC release of histamine and inflammatory cytokines in different ways, depending on the phase of the reproductive cycle.

Correlation between synthesis and methylation of DNA in HeLa cells

Abstract For the whole cell cycle the methylation of DNA was studied in synchronized HeLa cells and in nuclei isolated from them. In the intact cells the methylation of DNA cytosine runs parallel to DNA synthesis. The pattern of DNA cytosine methylation by the isolated nuclei is almost identical to that obtained with the whole cells. Since the isolated nuclei do not synthesize DNA, it is shown that DNA methylation continues for at least 30 min after DNA synthesis is over. No DNA minor thymine is found in the isolated nuclei.

Inhibitory effect of neuraminidase on SP-induced histamine release and TNF-α mRNA in rat mast cells: evidence of a receptor-independent mechanism

The neuropeptide substance P (SP) is a mediator of neuro-inflammation and can play a role by induction of histamine release (HR) and TNF-alpha. However, its effect on the heterogeneous response of mast cells (MC) has not been completely studied. We have established that the SR can induce 25% of HR in highly purified rat uterine MC at diestrous but not at proestrous phases of the reproductive cycle and 88% of HR in peritoneal mast cells (PMC). We also found 2.2 fold increase in TNF-alpha mRNA at diestrous, in SP stimulated uterine MC versus control and 2.7 fold increase in PMC; RT and competitive PCR were used to amplify the TNF-alpha mRNA. We have thereafter investigated the mechanism whereby the binding of SP to sialic acid on the MC membrane, could trigger secretion of histamine and induction of TNF-alpha mRNA. The neuraminidase pretreatment (0.1 U/ml) inhibited SP-stimulated HR from either uterine MC and PMC (98% and 50%, respectively) and totally inhibited SP-stimulated TNF-alpha mRNA levels. The neuraminidase effect was not toxic, since it was not observed in IgE mediated HR and TNF-alpha mRNA levels. In conclusion, the inhibitory effect of the neuraminidase on the SP-mediated increase of histamine and TNF-alpha mRNA, suggests that the SP-sialic acid interaction could have a role in the MC heterogeneous response.

Allergens of Parietaria judaica pollen—I. Purification and characterization of a hapten and a low molecular weight allergenic peptide

A low mol. wt allergen (Pj-2) and a hapten (Pj-H3) were purified from Parietaria judaica pollen by means of long-term aqueous extraction, dialysis and gel filtrations. The yield of the Pj-2 allergen was 0.94% (w/v) of the total protein present in the aqueous extract of the pollen, while its allergenic activity was about 60% of the total dialyzable activity, as verified by skin prick tests, ELISA- and RAST-inhibition experiments. The homogeneity of this allergen was demonstrated by one single sharp peak on HPLC, one single band on PAGE-SDS and by one single arc on IEF. Its mol. wt, estimated by HPLC and amino acid composition, was 10,400. The amino acid analysis showed 73 amino acid residues, and lysine was predominant, with 20 residues. The hapten Pj-H3 was 0.2% (w/v) of the total protein found in the pollen aqueous extract. It was inactive in skin prick tests even at a protein concn of 2 mg/ml, while it was capable of inhibiting by 60% in ELISA- and RAST-inhibition experiments, suggesting an immunochemical relationship with both IgE and allergens specific to P. judaica. The homogeneity was demonstrated by one single sharp peak on HPLC and one single band on PAGE-SDS. The amino acid analysis showed 10 amino acid residues, with no specific traits, and the mol. wt determined by gel filtration and amino acid composition was 1000. An immunochemical relation between the allergen and the hapten was also suggested by the results of an ELISA-inhibition test, and by the ability of the hapten to partially inhibit the precipitin line between rabbit antibodies to whole P. judaica pollen extract and the Pj-2 allergen. The allergen and the hapten described above, purified at homogeneity and in an antigenically active state, both provide adequate material for further structural and immunological characterizations.