Characterization and localization of a wound-inducible type I serine-carboxypeptidase from leaves of tomato plants (Lycopersicon esculentum Mill.)

During the course of characterization of the wound-response related proteins from tomato (Lycopersicon esculentum Mill.) leaves, a serine carboxypeptidase (EC 3.4.16.1) was identified. An increase in peptidase activity in response to wounding, and the isolation of a protein with carboxypeptidase (CP) activity from tomato leaves had been reported previously, but the mRNA coding for the enzyme was not identified. We now report the isolation of a tomato leaf type I serine-CP cDNA whose corresponding mRNA is induced by wounding, systemin and methyl jasmonate. The protein sequence deduced from the cDNA exhibits homology to tomato CP, and barley and rice type I CPs. Southern blot results indicated that the CP gene is probably a member of a small gene family. Tomato CP mRNA was detected within 3 h after wounding, or treatment with systemin or methyl jasmonate. Employing Western blot analysis, CP protein was shown to increase 12 h after the treatments. Using the tomato def1 mutant, we have demonstrated that a functional octadecanoid pathway is necessary for CP transcription in response to wounding. Carboxypeptidase protein was immunolocalized as protein aggregates within the central vacuoles of palisade mesophyll cells as well as in vascular parenchyma where it had previously been found. Double labeling using antibodies specific for CP and inhibitor II indicated that the two proteins are colocalized in the vacuolar aggregates. Tomato CP is a member of the "late wound-inducible genes" whose mRNAs increase 4-12 h following wounding, in contrast to several "early wound-inducible genes", whose mRNAs appear within 30 min. The data support a role for the enzyme in protein turnover that occurs systemically in leaf cells in response to wounding.

Hydrogen peroxide acts as a second messenger for the induction of defense genes in tomato plants in response to wounding, systemin, and methyl jasmonate

The systemic accumulation of both hydrogen peroxide (H(2)O(2)) and proteinase inhibitor proteins in tomato leaves in response to wounding was inhibited by the NADPH oxidase inhibitors diphenylene iodonium (DPI), imidazole, and pyridine. The expression of several defense genes in response to wounding, systemin, oligosaccharides, and methyl jasmonate also was inhibited by DPI. These genes, including those of four proteinase inhibitors and polyphenol oxidase, are expressed within 4 to 12 hr after wounding. However, DPI did not inhibit the wound-inducible expression of genes encoding prosystemin, lipoxygenase, and allene oxide synthase, which are associated with the octadecanoid signaling pathway and are expressed 0.5 to 2 hr after wounding. Accordingly, treatment of plants with the H(2)O(2)-generating enzyme glucose oxidase plus glucose resulted in the induction of only the later-expressed defensive genes and not the early-expressed signaling-related genes. H(2)O(2) was cytochemically detected in the cell walls of vascular parenchyma cells and spongy mesophyll cells within 4 hr after wounding of wild-type tomato leaves, but not earlier. The cumulative results suggest that active oxygen species are generated near cell walls of vascular bundle cells by oligogalacturonide fragments produced by wound-inducible polygalacturonase and that the resulting H(2)O(2) acts as a second messenger for the activation of defense genes in mesophyll cells. These data provide a rationale for the sequential, coordinated, and functional roles of systemin, jasmonic acid, oligogalacturonides, and H(2)O(2) signals for systemic signaling in tomato plants in response to wounding.

Hydrogen peroxide acts as a second messenger for the induction of defense genes in tomato plants in response to wounding, systemin, and methyl jasmonate

The systemic accumulation of both hydrogen peroxide (H(2)O(2)) and proteinase inhibitor proteins in tomato leaves in response to wounding was inhibited by the NADPH oxidase inhibitors diphenylene iodonium (DPI), imidazole, and pyridine. The expression of several defense genes in response to wounding, systemin, oligosaccharides, and methyl jasmonate also was inhibited by DPI. These genes, including those of four proteinase inhibitors and polyphenol oxidase, are expressed within 4 to 12 hr after wounding. However, DPI did not inhibit the wound-inducible expression of genes encoding prosystemin, lipoxygenase, and allene oxide synthase, which are associated with the octadecanoid signaling pathway and are expressed 0.5 to 2 hr after wounding. Accordingly, treatment of plants with the H(2)O(2)-generating enzyme glucose oxidase plus glucose resulted in the induction of only the later-expressed defensive genes and not the early-expressed signaling-related genes. H(2)O(2) was cytochemically detected in the cell walls of vascular parenchyma cells and spongy mesophyll cells within 4 hr after wounding of wild-type tomato leaves, but not earlier. The cumulative results suggest that active oxygen species are generated near cell walls of vascular bundle cells by oligogalacturonide fragments produced by wound-inducible polygalacturonase and that the resulting H(2)O(2) acts as a second messenger for the activation of defense genes in mesophyll cells. These data provide a rationale for the sequential, coordinated, and functional roles of systemin, jasmonic acid, oligogalacturonides, and H(2)O(2) signals for systemic signaling in tomato plants in response to wounding.

Characterization and localization of a wound-inducible type I serine-carboxypeptidase from leaves of tomato plants (Lycopersicon esculentum Mill.)

During the course of characterization of the wound-response related proteins from tomato (Lycopersicon esculentum Mill.) leaves, a serine carboxypeptidase (EC 3.4.16.1) was identified. An increase in peptidase activity in response to wounding, and the isolation of a protein with carboxypeptidase (CP) activity from tomato leaves had been reported previously, but the mRNA coding for the enzyme was not identified. We now report the isolation of a tomato leaf type I serine-CP cDNA whose corresponding mRNA is induced by wounding, systemin and methyl jasmonate. The protein sequence deduced from the cDNA exhibits homology to tomato CP, and barley and rice type I CPs. Southern blot results indicated that the CP gene is probably a member of a small gene family. Tomato CP mRNA was detected within 3 h after wounding, or treatment with systemin or methyl jasmonate. Employing Western blot analysis, CP protein was shown to increase 12 h after the treatments. Using the tomato def1 mutant, we have demonstrated that a functional octadecanoid pathway is necessary for CP transcription in response to wounding. Carboxypeptidase protein was immunolocalized as protein aggregates within the central vacuoles of palisade mesophyll cells as well as in vascular parenchyma where it had previously been found. Double labeling using antibodies specific for CP and inhibitor II indicated that the two proteins are colocalized in the vacuolar aggregates. Tomato CP is a member of the "late wound-inducible genes" whose mRNAs increase 4-12 h following wounding, in contrast to several "early wound-inducible genes", whose mRNAs appear within 30 min. The data support a role for the enzyme in protein turnover that occurs systemically in leaf cells in response to wounding.

Trend analysis and socio-economic differentials in infant mortality in the Southern Health Board, Ireland (1988-1997)

The objective of this paper is to examine trends in infant mortality (IMR) and low-birth weight (LBW) in the Southern Health Board (SHB) area and to investigate the relationship between IMR and social and economic factors. IMR data were obtained from the Central Statistics Office (CSO) over a 10-year period (1988-1997). Social deprivation was measured using the Small Area Health Research Unit (SAHRU) Deprivation Index, which consists of five census-based indicators; unemployment, low social class, car ownership, rented accommodation and overcrowding. During the 10 years, 556 infants died, 380 deaths (68%) occurring in the neonatal period and 176 (32%) in the post-neonatal period. There was a downward trend in IMR throughout the study period, from 11.3 in 1988 to 4.0 in 1997 (p < 0.001). The IMR in Cork City was higher than the rate in the SHB area as a whole (p = 0.0001). Congenital anomalies accounted for 34% of neonatal deaths. Sudden infant death syndrome (SIDS) and congenital anomalies accounted for 45% (79/176) and 22% (39/176) of postnatal deaths, respectively. Only 7% of all district electoral division (DED's) in the SHB were classed in the most deprived SAHRU Deprivation Index category (level 5). Yet, almost half (43%) of the DED's in Cork City were level 5 compared to only 1% in Cork County and 2% in Kerry. Despite significant overall improvements in infant mortality in the SHB, infants born into the lower socio-economic area (Cork City) continue to experience higher relative risks of mortality in comparison with those born in the higher socio-economic areas. Further investigation into the apparently divergent socio-economic patterns of infant mortality within the SHB is necessary.

Effects of magnesium sulfate in a newborn piglet meconium aspiration model

OBJECTIVE

To examine the hemodynamic effects of magnesium sulfate (MgSO4) in a neonatal model of meconium aspiration syndrome.

DESIGN

A prospective animal study.

PATIENTS AND PARTICIPANTS

Eight anesthetized neonatal piglets.

METHODS

Animals were instrumented under fentanyl anesthesia for the determination of pulmonary and systemic blood pressures and cardiac index. A model of meconium aspiration was produced by instilling 6 to 7 ml of 20% fresh human meconium in normal saline down the endotracheal tube, resulting in hypoxemia (mean arterial O2 saturation 73 SD, 10%), respiratory acidosis (mean pH 7.08, SD 0.04; PaCO2 89, SD 2 torr), and pulmonary arterial hypertension (mean pulmonary artery pressure 52 SD, 5 mm Hg). A total of four aliquots of MgSO4 (25 mg/kg equivalent to 0.1 mM/kg of magnesium) were administered intravenously to five animals (total of 100 mg/kg MgSO4). Three animals served as controls and did not receive MgSO4.

RESULTS

Each dose of MgSO4 was associated with a transient decrease in heart rate, cardiac index, pulmonary and systemic arterial pressures, and SaO2, followed by a partial gradual recovery of all these variables within 2 to 3 minutes. According to measurements taken after MgSO4 therapy, there was a significant decrease in arterial saturations (from 73 SD (10%) to 63 SD (13%); p < 0.05), mean systemic blood pressure (from 77 SD (16 mm Hg) to 74 SD (15 mm Hg); p < 0.05) and pulmonary artery pressure (to 52 SD (5 mm Hg); p < 0.05). The ratio between pulmonary and systemic vascular resistance was not significantly affected by MgSO4 therapy. There were no changes in the control animals.

CONCLUSION

The administration of magnesium sulfate is associated with increased hypoxemia in this model of meconium aspiration syndrome, probably because of worsening ventilation perfusion mismatch. These data do not provide any physiological support for the use of MgSO4 in the neonate with meconium aspiration and pulmonary hypertension and suggest that this agent should be used cautiously, if at all, in such situations.

Activity of human contact allergens in the murine local lymph node assay

The murine local lymph node assay (LLNA) is a predictive test for the identification of chemicals that have the potential to cause skin sensitization. Since its original development, the assay has been the subject of national and international evaluation studies and extensive comparisons with guinea pig tests and human data. On the basis of these investigations, the LLNA has recently been endorsed by ICCVAM (Interagency Coordinating Committee on the Validation of Alternative Methods) as a stand-alone method for skin sensitization hazard identification. At the same time, ICCVAM confirmed that, although the LLNA is not an in vitro method, it does represent a refinement in the way animals are used and can provide a means for reducing the number of animals used in sensitization hazard assessment. The investigations described here were designed to explore further the ability of the LLNA to identify accurately those chemicals that cause allergic contact dermatitis in humans. To that end we have measured, amongst 3 independent laboratories, LLNA responses induced by a total of 18 test chemicals, 11 of which are known to cause skin sensitization and 7 of which are believed not to be associated with any significant evidence of allergic contact dermatitis in humans. The LLNA correctly classified 16 of the 18 materials. The 11 chemicals tested which are associated with allergic contact dermatitis in humans were found to be positive in the LLNA. Of the 7 materials believed to be non-sensitizers, 5 were negative in the LLNA and 2 produced positive results. Collectively, these data provide additional evidence that the LLNA is able to discriminate skin sensitizers from those chemicals which do not possess a significant skin sensitization potential and thus provides a method for hazard identification that offers important animal welfare benefits.

Suramin inhibits initiation of defense signaling by systemin, chitosan, and a beta-glucan elicitor in suspension-cultured Lycopersicon peruvianum cells

Systemin-mediated defense signaling in tomato (Lycopersicon esculentum) plants is analogous to the cytokine-mediated inflammatory response in animals. Herein, we report that the initiation of defense signaling in suspension-cultured cells of Lycopersicon peruvianum by the peptide systemin, as well as by chitosan and beta-glucan elicitor from Phytophtora megasperma, is inhibited by the polysulfonated naphtylurea compound suramin, a known inhibitor of cytokine and growth factor receptor interactions in animal cells. Using a radioreceptor assay, we show that suramin interfered with the binding of the systemin analog (125)I-Tyr-2, Ala-15-systemin to the systemin receptor with an IC(50) of 160 microM. Additionally, labeling of the systemin receptor with a photoaffinity analog of systemin was inhibited in the presence of suramin. Receptor-mediated tyrosine phosphorylation of a 48-kDa mitogen-activated protein kinase and alkalinization of the medium of suspension-cultured cells in response to systemin and carbohydrate elicitors were also inhibited by suramin. The inhibition of medium alkalinization by suramin was reversible in the presence of high concentrations of systemin and carbohydrate elicitors. Calyculin A and erythrosin B, intracellular inhibitors of phosphatases and plasma membrane proton ATPases, respectively, both induce medium alkalinization, but neither response was inhibited by suramin. The polysulfonated compound heparin did not inhibit systemin-induced medium alkalinization. NF 007, a suramin derivative, induced medium alkalinization, indicating that neither NF 007 nor heparin interact with elicitor receptors like suramin. The data indicate that cell-surface receptors in plants show some common structural features with animal cytokine and growth factor receptors that can interact with suramin to interfere with ligand binding.

Use of the local lymph node assay for the estimation of relative contact allergenic potency

The effective toxicological evaluation of skin sensitization demands that potential contact allergens are identified and that the likely risks of sensitization among exposed populations assessed. By definition, chemicals which possess the toxicological property of skin sensitization potentially are capable of causing allergic contact dermatitis (ACD) in humans. However, this hazard is not an all-or-none phenomenon; clear dose-response relationships can be discerned and thresholds identified for both the induction of sensitization and the elicitation of contact dermatitis. Commonly, these parameters are grouped under the heading of potency, determination of which is vital for risk assessment. In the present investigation, the local lymph node assay (LLNA) has been employed to determine the relative potency of a range of 20 chemicals. The parameter used is the estimated concentration required to produce a 3-fold increase in draining lymph-node cell proliferative activity, the EC3 value. These measurements have been compared with an assessment of the human sensitizing potency of the 20 selected chemicals, each being assigned to 1 of 5 classes based on their human sensitizing potency. The EC3 value, derived from LLNA work carried out in acetone/ olive oil vehicle, correlated well with the human classification, with the strongest sensitizers having low EC3 values (<O.1%), weaker sensitizers having EC3 values generally in the 1-10% range, and non-sensitizing chemicals having EC3 values in excess of 100%. In conclusion, the derivation of the EC3 for a chemical provides an objective and quantitative estimate of potency that is of considerable utility for skin sensitization risk assessment.

The importance of exposure estimation in the assessment of skin sensitization risk

The development of new ingredients and products for the consumer market requires a thorough assessment of their potential for skin sensitization and the possible clinical manifestation of allergic contact dermatitis. The process by which low molecular weight chemicals induce and elicit skin sensitization reactions is complex and dependent on many factors relevant to the ability of the chemical to penetrate the skin, react with protein, and trigger the cell-mediated immune response. These major factors include inherent potency, chemical dose, duration and frequency of exposure, vehicle or product matrix, and occlusion. The fact that a chemical is a contact allergen does not mean that it cannot be formulated into a consumer product at levels well tolerated by most individuals. Many common ingredients (e.g., fragrances, preservatives) are known skin allergens. However, all allergens show dose-response and threshold characteristics. Therefore, one should be able to incorporate these chemicals into products at levels that produce acceptably low incidences of skin sensitization under foreseeable conditions of exposure. The critical exposure determinant for evaluating skin sensitization risk is dose per unit area of skin exposed. Use of this parameter allows for comparative assessments from different types of skin sensitization tests (including cross-species comparisons), and, at least for known potent allergens, there is remarkable similarity in threshold dose/unit area determinations across species. The dose/unit area calculation enables a judgment of the sensitization risk for different product types. This is illustrated using the chemical preservative methylchloroisothiazolinone/methylisothiazolinone (MCI/MI) as a case study.

Sexually transmitted diseases in Morocco: gender influences on prevention and health care seeking behavior

Increased awareness of the medical and social costs of sexually transmitted diseases (STD) has resulted in greater attention to the control of these illnesses. STDs are responsible for a significant amount of morbidity in Morocco and have become a key target of the HIV control program. In 1996, the Ministry of Health conducted a qualitative study in order to enhance information, education and communication strategies in the national STD/HIV program. Data on the conceptualization and knowledge of STD, information sources and health-care-seeking behavior were gathered through 70 semidirected, in-depth interviews conducted with men and women in the general population and health care providers (HCPs). Two commonly applied health behavior theories in STD/HIV prevention, the Health Belief Model (HBM) and the Theory of Reasoned Action (TRA) served as a framework for data analysis. The most common name for STD is berd, which means "the cold" in Moroccan Arabic. Berd is caused either by cold striking the genital area or sexual intercourse and most often designates a syndrome of genital discharge. However, the term was also often used to indicate STD in general. The dual causality of berd maintains social stability by providing an honorable excuse for individuals who become infected, while warning against unsanctioned sexual behavior. Clear gender differences in understanding STDs and health-care-seeking behavior emerged through these interviews. STDs in Morocco are viewed as women's illnesses and men with STD often reported feeling victimized by women. Men appear to have more extensive informal information sources for STD than women. Consequences of STD, both physical and psychosocial, were viewed as more severe for women than men, and men had greater access to treatment, for both social and economic reasons.

The systemin signaling pathway: differential activation of plant defensive genes

Systemin, an 18-amino-acid polypeptide released from wound sites on tomato leaves caused by insects or other mechanical damage, systemically regulates the activation of over 20 defensive genes in tomato plants in response to herbivore and pathogen attacks. Systemin is processed from a larger prohormone protein, called prosystemin, by proteolytic cleavages. However, prosystemin lacks a signal sequence and glycosylation sites and is apparently not synthesized through the secretory pathway, but in the cytoplasm. The polypeptide activates a lipid-based signal transduction pathway in which the 18:3 fatty acid, linolenic acid, is released from plant membranes and converted to the oxylipin signaling molecule jasmonic acid. A wound-inducible systemin cell surface receptor with an M(r) of 160,000 has recently been identified. The receptor regulates an intracellular cascade including, depolarization of the plasma membrane, the opening of ion channels, an increase in intracellular Ca(2+), activation of a MAP kinase activity and a phospholipase A(2) activity. These rapid changes appear to play important roles leading to the intracellular release of linolenic acid from membranes and its subsequent conversion to jasmonic acid, a potent activator of defense gene transcription. Although the mechanisms for systemin processing, release, and transport are still unclear, studies of the timing of the synthesis and of the intracellular localization of wound- and systemin-inducible mRNAs and proteins indicates that differential syntheses of signal pathway genes and defensive genes are occurring in different cell types. This signaling cascade in plants exhibits extraordinary analogies with the signaling cascade for the inflammatory response in animals.

Local lymph node assay: validation assessment for regulatory purposes

For the prediction of skin sensitization potential of substances, the murine local lymph node assay (LLNA) is an alternative to the widely used guinea pig tests. For more than 10 years, this method has undergone extensive development, evaluation, and validation. In this review, the validation status of the LLNA is considered, specifically with regard to its use for regulatory identification of skin sensitization hazards. The LLNA is a method for the predictive identification of chemicals that have a potential to cause skin sensitization. Activity is measured as a function of lymph node cell proliferative responses stimulated by topical application of test chemicals. The LLNA has successfully passed all reasonable validation stages. It provides a reliable and relevant source of predictive skin sensitization data, which unlike results from guinea pig tests, are reproducible from laboratory to laboratory. In summary, the LLNA is now ready for acceptance as a viable and complete alternative to traditional methods, offering a substantial reduction in animal numbers and refinement opportunities without compromising the standards for the identification of important skin sensitizers.

Acute animal studies of the STARFlex system: a new self-centering cardioSEAL septal occluder

The STARFlex system is a modified CardioSEAL device with a flexible self-centering mechanism comprised of nitinol springs strung between opposing arms, a connecting ball (sleeve joint that allows the device to pivot prerelease), and a front-loading delivery system. It was designed to allow a smaller device/defect sizing ratio and delivery profile, provide centering capability, and improve closure rates. To test this system, 13 devices (23, 28, and 33 mm) were deployed in six sheep within created atrial septal defects (12- to 22-mm diameter; n = 10), in the left atrium (n = 2), and in inferior vena cava (n = 1). All implantations in atrial septal defects were successful, with device/defect ratio ranging from 1.3 to 1.9 (median, 1.3), with no residual leak by angiography or echocardiography in seven (3/10 had </= small immediate leaks). The STARFlex system was effective in closing created atrial septal defects using a 10 Fr delivery sheath and low device/defect sizing ratios, comparing favorably with the standard CardioSEAL. Cathet. Cardiovasc. Intervent. 49:225-233, 2000.

UVB/UVA radiation activates a 48 kDa myelin basic protein kinase and potentiates wound signaling in tomato leaves

We investigated the effect of UV radiation on early signaling events in the response of young tomato plants (Lycopersicon esculentum) to wounding. Ultraviolet-C (< 280 nm) and UVB/UVA (280-390 nm) radiation both induced 48 kDa myelin basic protein kinase activity in leaves. The activation was associated with phosphorylation of tyrosine residues on the kinase, which is indicative of protein kinases of the mitogen-activated protein kinase family. Ultraviolet-C irradiation resulted in a strong proteinase inhibitor synthesis, as reported previously (Conconi et al., Nature 383, 826-829, 1996). Under the conditions used, UVB/UVA radiation did not induce proteinase inhibitor synthesis but resulted in a strong potentiation of systemic proteinase inhibitor synthesis in response to wounding. The UVB/UVA-irradiated plants that were subsequently wounded accumulated 2.5-4-fold higher levels of proteinase inhibitor I when compared to wounded non-irradiated plants. The potentiating effect was most prominent in the systemic unwounded leaf of a wounded plant. Levels of 12-oxo-phytodienoic acid and jasmonic acid that have been well documented to increase in response to wounding were not detected in response to UVB/UVA irradiation alone. The effect of UVB/UVA radiation in potentiating plant defense signaling should be further considered as a factor that may influence the ecological balance between plants and their predators.

Care during menopause: comparison of a women's health practice and traditional care

Despite the growth in primary care-based women's health centers, little is known about the characteristics of women's health patients and the quality of care provided in women's health centers versus traditional practices. Our objective was to compare a women's health practice and a general internal medicine practice on issues of care during menopause. A cross-sectional survey was administered simultaneously to patients aged 50-70 and their primary care physicians in a women's health practice and an affiliated general internal medicine practice. The survey asked patients about health behaviors, past and current hormone use, menopausal symptoms, and attitudes about menopause. Physicians were asked to estimate their patients' attitudes. Patients in women's health practices were younger, more likely to be smokers, and more likely to have had a prior hysterectomy. Women's health patients were somewhat more likely to report concerns related to menopausal symptoms. Women's health patients and patients attending the general internal medicine practice reported similar rates of past or current use of hormone therapy, after adjusting for prior hysterectomy and age. Physicians in women's health and general medicine were similar in their ability to estimate their patients' attitudes. In the general internal medicine practice, female physicians tended to better estimate their patients' attitudes than their male colleagues. Patients seeking care in a women's health practice differed in symptoms and concerns about the menopause compared with patients in a traditional primary care setting. Physicians' understanding of patients' menopausal concerns did not differ between the two practices. However, there may be gender differences in physicians' understanding of patients' concerns.

A method for distinguishing 1-acyl from 2-acyl lysophosphatidylcholines generated in biological systems

Phospholipases A(1) and A(2) frequently coexist in biological systems. Generation of lysophosphatidylcholine (LPC) in such systems cannot be assigned to any of these types of enzymes unless the position of the fatty acid in the lysocompound can be unambiguously determined. We here present a simple method to achieve this purpose. It is based on the initial chemical acylation of the isolated LPC with a labeled fatty acid, followed by the enzymatic analysis of the resulting phosphatidylcholine (PC), using snake or bee venom phospholipase A(2). Thus, if treatment of the PC with this enzyme releases a labeled free fatty acid, it is demonstrated that the initial LPC was acylated at position sn-1, whereas if the product of hydrolysis yields labeled LPC, then the initial LPC was acylated at position sn-2. This is the first method devised to determine the source of LPC in the presence of mixtures of phospholipases A(1) and A(2) in complex biological systems.

Identification of metal allergens in the local lymph node assay

BACKGROUND

The murine local lymph node assay (LLNA) has recently been endorsed as a validated alternative to guinea pig methods for the identification of skin sensitization hazard. Nevertheless, there has been some debate regarding the utility of this method for the detection of metal contact allergens.

OBJECTIVE

In these investigations, we have used the LLNA to determine the skin sensitization potential of 13 metal salts, 8 of which were considered to possess a significant ability to sensitize man, whereas the remaining 5 were judged to lack such potential.

RESULTS

The predictions from the LLNA were correct for 7 of the 8 (88%) sensitizing metals and for 4 of the 5 (80%) nonsensitizers when considered against the experience of these metals as human skin sensitizers. Thus, the overall predictive accuracy of the LLNA in relation to metals was 11/13 (85%), which is very similar to the accuracy of approximately 88% in relation to a much larger number of low-molecular-weight organic chemicals, as reported previously.

CONCLUSION

These data provide support for the potential utility of the LLNA in hazard identification of metal contact allergens.

Suppressors of systemin signaling identify genes in the tomato wound response pathway

In tomato plants, systemic induction of defense genes in response to herbivory or mechanical wounding is regulated by an 18-amino-acid peptide signal called systemin. Transgenic plants that overexpress prosystemin, the systemin precursor, from a 35S::prosystemin (35S::prosys) transgene exhibit constitutive expression of wound-inducible defense proteins including proteinase inhibitors and polyphenol oxidase. To study further the role of (pro)systemin in the wound response pathway, we isolated and characterized mutations that suppress 35S::prosys-mediated phenotypes. Ten recessive, extragenic suppressors were identified. Two of these define new alleles of def-1, a previously identified mutation that blocks both wound- and systemin-induced gene expression and renders plants susceptible to herbivory. The remaining mutants defined four loci designated Spr-1, Spr-2, Spr-3, and Spr-4 (for Suppressed in 35S::prosystemin-mediated responses). spr-3 and spr-4 mutants were not significantly affected in their response to either systemin or mechanical wounding. In contrast, spr-1 and spr-2 plants lacked systemic wound responses and were insensitive to systemin. These results confirm the function of (pro)systemin in the transduction of systemic wound signals and further establish that wounding, systemin, and 35S::prosys induce defensive gene expression through a common signaling pathway defined by at least three genes (Def-1, Spr-1, and Spr-2).

Positional specificity of a phospholipase A activity induced by wounding, systemin, and oligosaccharide elicitors in tomato leaves

Phospholipase A (PLA) activity, as measured by the accumulation of (14)C-lysophosphatidylcholine in leaves of tomato plants, increased rapidly and systemically in response to wounding. The increase in PLA activity in the systemic unwounded leaves was biphasic in wild-type tomato plants, peaking at 15 min and again at 60 min, but the second peak of activity was absent in transgenic prosystemin antisense plants. Supplying young excised tomato plants with the polypeptide hormone systemin also caused (14)C-lysophosphatidylcholine to increase to levels similar to those induced by wounding, but the increase in activity persisted for >2 hr. Antagonists of systemin blocked both the release of (14)C-lysophosphatidylcholine and the accumulation of defense proteins in response to systemin. (14)C-lysophosphatidylcholine levels did not increase in response to jasmonic acid. Chemical acylation of the lysophosphatidylcholine produced by wounding, systemin, and oligosaccharide elicitors followed by enzymatic hydrolysis with lipases of known specificities demostrated that the lysophosphatidylcholine is generated by a PLA with specificity for the sn-2 position.

Positional specificity of a phospholipase A activity induced by wounding, systemin, and oligosaccharide elicitors in tomato leaves

Phospholipase A (PLA) activity, as measured by the accumulation of (14)C-lysophosphatidylcholine in leaves of tomato plants, increased rapidly and systemically in response to wounding. The increase in PLA activity in the systemic unwounded leaves was biphasic in wild-type tomato plants, peaking at 15 min and again at 60 min, but the second peak of activity was absent in transgenic prosystemin antisense plants. Supplying young excised tomato plants with the polypeptide hormone systemin also caused (14)C-lysophosphatidylcholine to increase to levels similar to those induced by wounding, but the increase in activity persisted for >2 hr. Antagonists of systemin blocked both the release of (14)C-lysophosphatidylcholine and the accumulation of defense proteins in response to systemin. (14)C-lysophosphatidylcholine levels did not increase in response to jasmonic acid. Chemical acylation of the lysophosphatidylcholine produced by wounding, systemin, and oligosaccharide elicitors followed by enzymatic hydrolysis with lipases of known specificities demostrated that the lysophosphatidylcholine is generated by a PLA with specificity for the sn-2 position.

Proteinase inhibitor-inducing activity of the prohormone prosystemin resides exclusively in the C-terminal systemin domain

Prosystemin is the 200-amino acid precursor of the 18-amino acid polypeptide defense hormone, systemin. Herein, we report that prosystemin was found to be as biologically active as systemin when assayed for proteinase inhibitor induction in young tomato plants and nearly as active in the alkalinization response in Lycopersicon esculentum suspension-cultured cells. Similar to many animal prohormones that harbor multiple signals, the systemin precursor contains five imperfect repetitive domains N-terminal to a single systemin domain. Whether the five repetitive domains contain defense signals has not been established. N-terminal deletions of prosystemin had little effect on its activity in tomato plants or suspension-cultured cells. Deletion of the C-terminal region of prosystemin containing the 18-amino acid systemin domain completely abolished its proteinase inhibitor induction and alkalinization activities. The apoplastic fluid from tomato leaves and the medium of cultured cells were analyzed for proteolytic activity that could process prosystemin to systemin. These experiments showed that proteolytic enzymes present in the apoplasm and medium could cleave prosystemin into large fragments, but the enzymes did not produce detectable levels of systemin. Additionally, inhibitors of these proteolytic enzymes did not affect the biological activity of prosystemin. The cumulative data indicated that prosystemin and/or large fragments of prosystemin can be active inducers of defense responses in both tomato leaves and suspension-cultured cells and that the only region of prosystemin that is responsible for activating the defense response resides in the systemin domain.

The expression of tomato prosystemin in Escherichia coli: A structural challenge

Prosystemin is the 200-amino-acid prohormone of the 18-amino-acid polypeptide called systemin, a systemic mobile signal that activates the synthesis of defense genes in solanaceous plants in response to herbivore attacks. The unusual primary structural features of the tomato prosystemin cDNA and protein provided an extraordinary challenge in devising an expression system to obtain the full-length protein. Prosystemin expression inhibited the growth of a eukaryotic and several prokaryotic hosts used. Prosystemin was initially synthesized as a truncated protein of 185 amino acids in length using a T7 RNA polymerase expression system in E. coli strain BL21[DE3]. The truncation was found to be due to two factors: (1) the intramolecular associations of the 5' coding region of the prosystemin sequence with the expression vector's ribosome binding site and (2) the presence of a translation start site just prior to the amino acid methionine at position 15. Mutations that permitted the synthesis of the full-length prosystemin protein were introduced into the amino-terminal 5' coding region of the prosystemin cDNA. A 199-amino-acid recombinant prosystemin lacking the N-terminal methionine was purified from lysates and confirmed by N-terminal amino acid sequence and immunoblot analysis.