Effect of fingolimod on MRI outcomes in patients with paediatric-onset multiple sclerosis: results from the phase 3 PARADIGMS study.

OBJECTIVE: PARADIGMS demonstrated superior efficacy and comparable safety of fingolimod versus interferon ß-1a (IFN ß-1a) in paediatric-onset multiple sclerosis (PoMS). This study aimed to report all predefined MRI outcomes from this study. METHODS: Patients with multiple sclerosis (MS) (aged 10-<18 years) were randomised to once-daily oral fingolimod (n=107) or once-weekly intramuscular IFN ß-1a (n=108) in this flexible duration study. MRI was performed at baseline and every 6 months for up to 2 years or end of the study (EOS) in case of early treatment discontinuation/completion. Key MRI endpoints included the annualised rate of formation of new/newly enlarging T2 lesions, gadolinium-enhancing (Gd+) T1 lesions, new T1 hypointense lesions and combined unique active (CUA) lesions (6 months onward), changes in T2 and Gd+ T1 lesion volumes and annualised rate of brain atrophy (ARBA). RESULTS: Of the randomised patients, 107 each were treated with fingolimod and IFN ß-1a for up to 2 years. Fingolimod reduced the annualised rate of formation of new/newly enlarging T2 lesions (52.6%, p<0.001), number of Gd+ T1 lesions per scan (66.0%, p<0.001), annualised rate of new T1 hypointense lesions (62.8%, p<0.001) and CUA lesions per scan (60.7%, p<0.001) versus IFN ß-1a at EOS. The percent increases from baseline in T2 (18.4% vs 32.4%, p<0.001) and Gd+ T1 (-72.3% vs 4.9%, p=0.001) lesion volumes and ARBA (-0.48% vs -0.80%, p=0.014) were lower with fingolimod versus IFN ß-1a, the latter partially due to accelerated atrophy in the IFN ß-1a group. CONCLUSION: Fingolimod significantly reduced MRI activity and ARBA for up to 2 years versus IFN ß-1a in PoMS.

Consistent control of disease activity with fingolimod versus IFN ß-1a in paediatric-onset multiple sclerosis: further insights from PARADIGMS.

BACKGROUND: In PARADIGMS, a double-blind phase III trial in 215 paediatric patients with multiple sclerosis (MS) (10 to <18 years), fingolimod administered for up to 2 years significantly reduced the annualised relapse rate (ARR) and rate of new/newly enlarged T2 (n/neT2) lesions compared with interferon (IFN) ß-1a. OBJECTIVES: To investigate (1) differences between treatment groups across subpopulations (treatment-naïve, younger/prepubertal patients); (2) disability progression. METHODS: ARRs at 10, 11 and 12 years were estimated based on predefined modelling extrapolations. Changes in Expanded Disability Status Scale (EDSS), and in 3 month (3M) and 6 month (6M) confirmed disability progression (CDP) were evaluated post hoc. RESULTS: In the treatment-naïve subpopulation, fingolimod reduced ARR and n/neT2 lesions by 85.8% and 53.4%, respectively versus INF ß-1a (both p<0.001), compared with 81.9% and 52.6% in the overall population. Model-based ARR reductions in younger patients (≤12 years) were 91.9%-94.6%. Twice as many IFN ß-1a-treated than fingolimod-treated patients had worse EDSS scores at study end (20.6% vs 10.5%, p=0.043). Risk reductions in 3M-CDP and 6M-CDP were 77.2% (p=0.007) and 80.2% (p=0.040), respectively. CONCLUSIONS: Fingolimod in paediatric MS was associated with consistent control of disease activity versus IFN ß-1a (including treatment-naïve and younger patients) and resulted in less disability progression for up to 2 years. TRIAL REGISTRATION NUMBER: NCT01892722.

Hydroxyproline-rich glycopeptide signals in potato elicit signalling associated with defense against insects and pathogens.

HypSys peptides are 18-20 amino acids glycopeptide defense signal first discovered in tobacco and tomato that activate expression of defensive genes against insect-herbivores. Discovery of their orthologs in other Solanaceaous and nonsolanaceous plants demonstrated their possible ubiquitous nature and species specific functional diversity. In our continued search to establish the paradigm of defense signalling by HypSys peptides, we isolated a cDNA from potato leaves encoding putative analogs of tomato HypSys peptides flanked by conserved proteolytic cleavage sites. The gene encoding the cDNA was a member of a gene family in the tetraploid genome of potato and its expression was transcriptionally activated by wounding and methyl jasmonate. The deduced precursor protein contained a leader peptidase splice site and three putative HypSys peptides with conserved N- and C-termini along with central proline-rich motifs. In defense signalling, the three HypSys peptides elicit H2O2 generation in vivo and activate several antioxidant defensive enzymes in young potato leaves. Similar to potato systemin, the HypSys peptides activate the expression of octadecanoid pathway genes and protease inhibitors for insect defense. In addition, the HypSys peptides also activate the essential genes of the innate pathogen defense response in young potato leaves, acting as common elicitors of signalling associated with anti-herbivore and anti-pathogen defense in potato.

Plant elicitor peptides are conserved signals regulating direct and indirect antiherbivore defense.

Insect-induced defenses occur in nearly all plants and are regulated by conserved signaling pathways. As the first described plant peptide signal, systemin regulates antiherbivore defenses in the Solanaceae, but in other plant families, peptides with analogous activity have remained elusive. In the current study, we demonstrate that a member of the maize (Zea mays) plant elicitor peptide (Pep) family, ZmPep3, regulates responses against herbivores. Consistent with being a signal, expression of the ZmPROPEP3 precursor gene is rapidly induced by Spodoptera exigua oral secretions. At concentrations starting at 5 pmol per leaf, ZmPep3 stimulates production of jasmonic acid, ethylene, and increased expression of genes encoding proteins associated with herbivory defense. These include proteinase inhibitors and biosynthetic enzymes for production of volatile terpenes and benzoxazinoids. In accordance with gene expression data, plants treated with ZmPep3 emit volatiles similar to those from plants subjected to herbivory. ZmPep3-treated plants also exhibit induced accumulation of the benzoxazinoid phytoalexin 2-hydroxy-4,7-dimethoxy-1,4-benzoxazin-3-one glucoside. Direct and indirect defenses induced by ZmPep3 contribute to resistance against S. exigua through significant reduction of larval growth and attraction of Cotesia marginiventris parasitoids. ZmPep3 activity is specific to Poaceous species; however, peptides derived from PROPEP orthologs identified in Solanaceous and Fabaceous plants also induce herbivory-associated volatiles in their respective species. These studies demonstrate that Peps are conserved signals across diverse plant families regulating antiherbivore defenses and are likely to be the missing functional homologs of systemin outside of the Solanaceae.

IbACP, a sixteen-amino-acid peptide isolated from Ipomoea batatas leaves, induces carcinoma cell apoptosis.

A 16-amino-acid peptide was isolated from the leaves of sweet potato. The peptide caused a rapid alkalinization response in tomato suspension culture media, a characteristic of defense peptides in plants. No post-translational modification was observed on the peptide according to MALDI-MS analysis. We have named the peptide Ipomoea batatas anti-cancer peptide (IbACP). IbACP also was shown with the ability to dose-dependently inhibit Panc-1, a pancreatic cancer line, cell proliferation. The morphological observations of the Panc-1 cells by phase contrast microscopy showed significant changes after treatment with IbACP. Moreover, caspase-3 and PARP [poly(ADP-ribose) polymerase] were activated by IbACP treatment, followed by cell death. An increase in the levels of cleaved caspase-3 and -9 was also detected by an immunoblot assay after treatment with IbACP. In addition, genomic DNA fragmentation and decreased cellular proliferation were induced when IbACP was supplied to the Panc-1 cells, further demonstrating its biological relevance. The combined data indicates that IbACP peptide may have an important role in the regulation of cellular proliferation by inducing and promoting apoptosis through the mitochondrial apoptotic pathway. This report also showed that IbACP peptide contains potent anti-cancer effects and may play an important role in herbal medicine development.

Lipid effects of peroxisome proliferator-activated receptor-δ agonist GW501516 in subjects with low high-density lipoprotein cholesterol: characteristics of metabolic syndrome.

OBJECTIVE: Peroxisome proliferator-activated receptor-δ-induced upregulation in skeletal muscle fatty acid oxidation would predict the modulation of lipid/lipoproteins. METHODS AND RESULTS: GW501516 (2.5, 5.0, or 10.0 mg) or placebo was given for 12 weeks to patients (n=268) with high-density lipoprotein (HDL) cholesterol <1.16 mmol/L. Fasting lipids/apolipoproteins (apos), insulin, glucose, and free fatty acid were measured; changes from baseline were calculated and assessed. A second smaller exploratory study (n=37) in a similar population was conducted using a sequence of 5 and 10 mg dosing for the assessment of lipoprotein particle concentration. GW501516 demonstrated HDL cholesterol increases up to 16.9% (10 mg) and apoA-I increases up to 6.6%. Reductions were observed in low-density lipoprotein (LDL) cholesterol (-7.3%), triglycerides (-16.9%), apoB (-14.9%), and free fatty acids (-19.4%). The exploratory study showed significant reductions in the concentration of very LDL (-19%), intermediate-density lipoprotein (-52%), and LDL (-14%, predominantly a reduction in small particles), whereas the number of HDL particles increased (+10%; predominantly medium and large HDL). CONCLUSIONS: GW501516 produced significant changes in HDL cholesterol, LDL cholesterol, apoA1, and apoB. Fewer very LDL and larger LDL support a transition toward less atherogenic lipoprotein profiles. These data are consistent with peroxisome proliferator-activated receptor-δ being a potentially important target for providing cardiovascular protection in metabolic syndrome-like patients.

GmPep914, an eight-amino acid peptide isolated from soybean leaves, activates defense-related genes.

Only a handful of endogenous peptide defense signals have been isolated from plants. Herein, we report a novel peptide from soybean (Glycine max) leaves that is capable of alkalinizing the media of soybean suspension cells, a response that is generally associated with defense peptides. The peptide, DHPRGGNY, was synthesized and found to be active at 0.25 nM and requiring only 5 to 10 min to obtain a maximal pH change. The peptide is located on the carboxy-terminal end of a 52-amino acid precursor protein (Glyma12g00990) deduced from the soybean genome project. A search of the soybean databank revealed a homolog (Glyma09g36370) that contained a similar peptide, DLPRGGNY, which was synthesized and shown to have identical activity. The peptides, designated GmPep914 (DHPRGGNY) and GmPep890 (DLPRGGNY), were capable of inducing the expression of both Glyma12g00990 (GmPROPEP914) and Glyma09g36370 (GmPROPEP890) in cultured soybean suspension cells within 1 h. Both peptides induced the expression of defense genes, including CYP93A1, a cytochrome P450 gene involved in phytoalexin synthesis, chitinaseb1-1, a chitinase involved in pathogen defense, and Glycine max chalcone synthase1 (Gmachs1), chalcone synthase, involved in phytoalexin production. Both GmPROPEP914 and GmPROPEP890 were highly expressed in the roots, relative to the aerial portions of the plant. However, treatment of the aerial portion of soybean plants with hormones involved in elicitation of defense responses revealed a significant increase in expression levels of GmPROPEP914 and GmPROPEP890. A search of gene databases revealed homologous sequences in other members of the Fabales and also in the closely related Cucurbitales but not in any other order of plants.

Systemin, hydroxyproline-rich systemin and the induction of protease inhibitors.

Systemin, an 18-amino acid signaling peptide isolated from tomato leaves, has been found to be an integral component of the jasmine acid signaling pathway, leading to the synthesis of protease inhibitors (PIs). The discovery of systemin has led to a search for other peptide signals involved in defense in the Solanaceae and in other plant families. A new class of peptides having similar signaling properties but little sequence homology to systemin have been found and termed hydroxyproline-rich glycopeptide systemins (HypSys). These small (18-20 amino acids) glycopeptides, like systemin, are derived from larger precursor proteins (proHypSys) and until recently were thought to function only in protection from herbivore attack. However, HypSys peptides isolated from petunia induced the defensin gene, known for its involvement in pathogen defense. More recently, a HypSys glycopeptide was isolated from sweet potato, a member of the Convolvulaceae family and found to induce the sporamin gene which codes for the major storage protein in tubers with trypsin inhibitor activity. These recent discoveries expand the function and range of the HypSys family of glycopeptides and establish these unique inducible signaling molecules as potential components of defense pathways throughout the Eudicots. Herein we review the signaling and structural properties of systemin and the HypSys glycopeptides and their roles in the induction of PIs.

RALFs: peptide regulators of plant growth.

Peptide signaling regulates a variety of developmental processes and environmental responses in plants. For example, the peptide systemin induces the systemic defense response in tomato and defensins are small cysteine-rich proteins that are involved in the innate immune system of plants. The CLAVATA3 peptide regulates meristem size and the SCR peptide is the pollen self-incompatibility recognition factor in the Brassicaceae. LURE peptides produced by synergid cells attract pollen tubes to the embryo sac. RALFs are a recently discovered family of plant peptides that play a role in plant cell growth.

Structure-activity studies of GmSubPep, a soybean peptide defense signal derived from an extracellular protease.

GmSubPep, a 12-amino acid peptide isolated from soybean leaves, induces the expression of genes in soybean suspension-cultured cells that encode proteins involved in defense against pathogens. The peptide is derived from an extracellular subtilisin-like protease (subtilase) and binds a putative cell-surface receptor that initiates a defense signaling cascade. Interaction of the peptide with its receptor results in alkalinization of soybean suspension cell media which can be utilized to analyze the kinetics of receptor binding. Substitutions of alanine at each of the 12 amino acid positions revealed that the amino acids at positions 10 (arginine) and 12 (histidine) were essential for activity. Both analogs were able to reduce the physiological effects of GmSubPep associated with receptor binding. Deletion of the C-terminal histidine [GmSubPep(1-11)] abolished the alkalinizing activity and this peptide was also a strong competitor for receptor binding. Deletion of N-terminal amino acids from GmSubPep caused a sequential loss of activity with no alkalinizing activity for GmSubPep(4-12). However, the N-terminal deleted peptides did not compete with GmSubPep for receptor binding. Further modifications at the arginine-10 position indicated that an ionizable proton was not essential for activity as an attenuated response was found for a citrulline substitution. Substitution of the histidine-12 with methylated histidine at position N-1 of the imidazole group abolished activity, whereas substitution at N-3 was completely active, indicating that the N-3 analog retains important receptor binding properties. This study indicates that the extreme C-terminal of GmSubPep has important signal transduction properties while the C-terminal is essential for receptor interaction.

Structure-activity studies of RALF, Rapid Alkalinization Factor, reveal an essential--YISY--motif.

Rapid Alkalinization Factor (RALF) is a 49-amino acid peptide initially isolated from tobacco leaves that is capable of arresting both root and pollen tube growth. With suspension cells, addition of RALF causes an elevation of the pH of the extracellular media, caused by the blockage of a proton pump. RALF associates with a putative receptor(s) on the surface of the plant cell, initiating a signal transduction pathway. Although the exact function(s) of RALFs are unknown, its presence throughout the plant kingdom attests to its importance in some type of basic regulatory role. In the present study, deletion and substitution analyses of RALF reveal a specific - YISY - motif located at positions 5 through 8 from the N-terminus, highly conserved within the plant kingdom, which is a requirement for productive binding of RALF to its putative receptor. Replacement of isoleucine with alanine in the - YISY - motif caused a severe reduction in alkalinization of suspension cell media and a loss of root growth inhibition with tomato seedlings.

A subtilisin-like protein from soybean contains an embedded, cryptic signal that activates defense-related genes.

Among the arsenal of plant-derived compounds activated upon attack by herbivores and pathogens are small peptides that initiate and amplify defense responses. However, only a handful of plant signaling peptides have been reported. Here, we have isolated a 12-aa peptide from soybean (Glycine max) leaves that causes a pH increase of soybean suspension-cultured cell media within 10 min at low nanomolar concentrations, a response that is typical of other endogenous peptide elicitors and pathogen-derived elicitors. The amino acid sequence was determined and was found to be derived from a member of the subtilisin-like protease (subtilase) family. The sequence of the peptide was located within a region of the protein that is unique to subtilases in legume plants and not found within any other plant subtilases thus far identified. We have named this peptide signal Glycine max Subtilase Peptide (GmSubPep). The gene (Glyma18g48580) was expressed in all actively growing tissues of the soybean plant. Although transcription of Glyma18g48580 was not induced by wounding, methyl jasmonate, methyl salicylate, or ethephon, synthetic GmSubPep peptide, when supplied to soybean cultures, induced the expression of known defense-related genes, such as Cyp93A1, Chib-1b, PDR12, and achs. GmSubPep is a unique plant defense peptide signal, cryptically embedded within a plant protein with an independent metabolic role, providing insights into plant defense mechanisms.

A pollen-specific RALF from tomato that regulates pollen tube elongation.

Rapid Alkalinization Factors (RALFs) are plant peptides that rapidly increase the pH of plant suspension cell culture medium and inhibit root growth. A pollen-specific tomato (Solanum lycopersicum) RALF (SlPRALF) has been identified. The SlPRALF gene encodes a preproprotein that appears to be processed and released from the pollen tube as an active peptide. A synthetic SlPRALF peptide based on the putative active peptide did not affect pollen hydration or viability but inhibited the elongation of normal pollen tubes in an in vitro growth system. Inhibitory effects of SlPRALF were detectable at concentrations as low as 10 nm, and complete inhibition was observed at 1 mum peptide. At least 10-fold higher levels of alkSlPRALF, which lacks disulfide bonds, were required to see similar effects. A greater effect of peptide was observed in low-pH-buffered medium. Inhibition of pollen tube elongation was reversible if peptide was removed within 15 min of exposure. Addition of 100 nm SlPRALF to actively growing pollen tubes inhibited further elongation until tubes were 40 to 60 mum in length, after which pollen tubes became resistant to the peptide. The onset of resistance correlated with the timing of the exit of the male germ unit from the pollen grain into the tube. Thus, exogenous SlPRALF acts as a negative regulator of pollen tube elongation within a specific developmental window.

Isolation and characterization of hydroxyproline-rich glycopeptide signals in black nightshade leaves.

A gene encoding a preprohydroxyproline-rich systemin, SnpreproHypSys, was identified from the leaves of black nightshade (Solanum nigrum), which is a member of a small gene family of at least three genes that have orthologs in tobacco (Nicotiana tabacum; NtpreproHypSys), tomato (Solanum lycopersicum; SlpreproHypSys), petunia (Petunia hybrida; PhpreproHypSys), potato (Solanum tuberosum; PhpreproHypSys), and sweet potato (Ipomoea batatas; IbpreproHypSys). SnpreproHypSys was induced by wounding and by treatment with methyl jasmonate. The encoded precursor protein contained a signal sequence and was posttranslationally modified to produce three hydroxyproline-rich glycopeptide signals (HypSys peptides). The three HypSys peptides isolated from nightshade leaf extracts were called SnHypSys I (19 amino acids with six pentoses), SnHypSys II (20 amino acids with six pentoses), and SnHypSys III (20 amino acids with either six or nine pentoses) by their sequential appearance in SnpreproHypSys. The three SnHypSys peptides were synthesized and tested for their abilities to alkalinize suspension culture medium, with synthetic SnHypSys I demonstrating the highest activity. Synthetic SnHypSys I was capable of inducing alkalinization in other Solanaceae cell types (or species), indicating that structural conformations within the peptides are recognized by the different cells/species to initiate signal transduction pathways, apparently through recognition by homologous receptor(s). To further demonstrate the biological relevance of the SnHypSys peptides, the early defense gene lipoxygenase D was shown to be induced by all three synthetic peptides when supplied to excised nightshade plants.

Evaluation of topically administered diclofenac liposomal cream for treatment of horses with experimentally induced osteoarthritis.

OBJECTIVE: To assess the clinical, biochemical, and histologic effects of topically administered diclofenac liposomal cream (DLC) in the treatment of horses with experimentally induced osteoarthritis. ANIMALS: 24 horses. PROCEDURES: Osteoarthritis was induced arthroscopically in 1 middle carpal joint of all horses. Eight horses treated with DLC were given 7.3 g twice daily via topical application. Eight horses treated with phenylbutazone were given 2 g orally once daily. Eight control horses received no treatment. Evaluations included clinical, radiographic, magnetic resonance imaging, synovial fluid, gross, and histologic examinations as well as histochemical and biochemical analyses. RESULTS: No adverse treatment-related events were detected. Horses that were treated with DLC or phenylbutazone had significant clinical improvement of lameness, unlike the control horses. Treatment with DLC induced significant improvement in staining and total articular glycosaminoglycan content, compared with no treatment. Treatment with phenylbutazone induced significant reduction in synovial fluid prostaglandin E2 concentration, compared with DLC and no treatment. Treatment with DLC induced significantly less radial carpal bone sclerosis and overall gross cartilage erosion, compared with phenylbutazone. CONCLUSIONS AND CLINICAL RELEVANCE: Results indicated that DLC had both clinical sign-modifying and disease-modifying effects. Only clinical sign-modifying effects were detected in association with phenylbutazone administration. Treatment with DLC had significant beneficial effects, compared with phenylbutazone, and no detrimental effects. Results suggested that DLC is a viable therapeutic option for horses with osteoarthritis.

Structure-activity studies of AtPep1, a plant peptide signal involved in the innate immune response.

AtPep1, a 23-amino acid peptide recently isolated from Arabidopsis leaves, induces the expression of the genes encoding defense proteins against pathogens. We investigated the structure-activity relationship of AtPep1 with its receptor, a 170 kDa leucine-rich repeat receptor kinase (AtPEPR1) by utilizing a suspension cell assay (the alkalinization assay). Binding of AtPep1 to AtPEPR1 on the cell surface is accompanied by an increase in the pH of Arabidopsis suspension cell media by 1 pH unit in 15 min with a half-maximal response of 0.25 nM. Sequential removal of N-terminal amino acids had little effect on activity until the peptide was reduced to 15 amino acids [AtPep1(9-23)], which decreased the activity by less than one order of magnitude. Activity was completely abolished when nine C-terminal amino acids remained. Removal of the C-terminal asparagine from AtPep1(9-23), resulted in a decrease in activity (12 max approximately 100 nM). AtPep1(9-23) was used for alanine-substitution analysis and revealed two important residues for activity, a serine, [A(15)]AtPep1(9-23) (12 max approximately 10nM), and a glycine, [A(17)]AtPep1(9-23) (12 max approximately 1000 nM). Neither [A(17)]AtPep1(9-23) nor the C-terminal truncated AtPep1, AtPep1(9-22), were able to compete with AtPep1(9-23) in the alkalinization assay. The importance of the glycine residue for binding to the AtPep receptor was also confirmed by competition assays using radiolabeled AtPep1. d-Alanine or 2-methylalanine substituted at the glycine position displayed only a slight decrease in activity whereas l- and d-proline substitution caused a loss of activity. Homologs of AtPep1 identified in Arabidopsis and other species revealed a strict conservation of the glycine residue.

Usefulness of increased skin cholesterol to identify individuals at increased cardiovascular risk (from the Predictor of Advanced Subclinical Atherosclerosis study).

In patients with symptomatic coronary heart disease, skin cholesterol (SC) content is associated with the presence and extent of coronary artery disease; however, its relation to subclinical arterial disease in asymptomatic patients is unknown. The purpose of this study was to determine the relations between SC and carotid intima-media thickness (CIMT) in asymptomatic subjects across a wide range of cardiovascular risk. SC was measured using a noninvasive assay. CIMT and carotid plaque presence were determined by high-resolution B-mode ultrasound. Associations among SC, CIMT, carotid plaque presence, and cardiovascular risk factors were evaluated by multivariable logistic regression analyses. SC and CIMT were measured in 565 asymptomatic subjects (57 +/- 10 years of age, 38% women) from 6 sites in North America. The mean Framingham 10-year cardiovascular risk was 8.4 +/- 7.2%. A 10-U increase in SC was associated with a 12% increase in the odds of having increased CIMT (p = 0.006) and a 15% increase in carotid plaque presence (p = 0.002). Odds ratios (95% confidence intervals) associated with SC >110 U were 2.19 (1.25 to 3.85, p = 0.006) for increased CIMT and 2.89 (1.61 to 5.19, p <0.001) for carotid plaque presence. In conclusion, SC identified the presence of advanced subclinical atherosclerosis. The relations among increasing SC, increasing CIMT, and carotid plaque presence were consistent across all levels of cardiovascular risk and were independent of cardiovascular risk factors. SC may be a useful test for cardiovascular risk prediction.

Six peptide wound signals derived from a single precursor protein in Ipomoea batatas leaves activate the expression of the defense gene sporamin.

A mixture of three homologous bioactive hydroxyproline-rich glycopeptides (HypSys peptides) of 18 amino acids in length, differing only at two residues, was isolated from leaves of Ipomoea batatas, the common sweet potato. One of the peptides represented over 95% of the isolated isopeptides, which, at 2.5 nm concentration, induced the expression of sporamin, a major defense protein of I. batatas. The sequence of the major isoform was used to synthesize a primer that identified a cDNA encoding a precursor protein. The protein contained six proline-rich regions whose sequences suggested that they might be HypSys defense signals. One of the encoded peptides, called IbHypSys IV, was identical to one of two minor components of the isolated isopeptides, but neither the major isopeptide nor the other minor isoform was found within the precursor. The six peptides encoded by the precursor gene were synthesized but with hydroxyproline residues at positions found in the native isoforms and lacking carbohydrate moieties. All of the peptides were biologically active when supplied to leaves of sweet potato plants. The gene is the first ortholog of the preproHypSys gene family to be found outside of the Solanaceae family, and its encoded peptide precursor is the first example in plants of a precursor protein with six potential peptide defense signals, a scenario only found previously in animals. The data indicate that multiple copies of the HypSys peptides in a single precursor may have an important role in amplifying wound signaling in leaves in response to herbivore attacks.

Peptide signals for plant defense display a more universal role.

Hydroxyproline-rich systemins (HypSys) are small defense signaling glycopeptides found within the Solanaceae family that until recently were thought to only induce defense genes to herbivore attack. The glycopeptides are processed from larger proproteins with up to 3 different glycopeptides being processed out of a single precursor protein. A conserved central hydroxyproline motif within each HypSys is the site of pentose sugar attachment. Recently, it was found that in Petunia hybrida, these defense signaling glycopeptides did not induce protease inhibitor but instead, increased levels of defensin, a gene that is involved in pathogen attack. More recently, a HypSys peptide was isolated from Ipomoea batatas (sweet potato) of the Convolvulaceae family and found to induce sporamin. The proprotein precursor contained six putative peptide signals and had a propeptidase processing region with homology to solanaceous proHypSys. Thus, the HypSys defense peptides are no longer confined to defense against herbivory or exclusivity to the Solanaceae family, redefining both function and dispersion.

Three hydroxyproline-rich glycopeptides derived from a single petunia polyprotein precursor activate defensin I, a pathogen defense response gene.

Hydroxyproline-rich glycopeptides (HypSys peptides) are recently discovered 16-20-amino acid defense signals in tobacco and tomato leaves that are derived from cell wall-associated precursors. The peptides are powerful wound signals that activate the expression of defensive genes in tobacco and tomato leaves in response to herbivore attacks. We have isolated a cDNA from petunia (Petunia hybrida) leaves encoding a putative protein of 214 amino acids that is a homolog of tobacco and tomato HypSys peptide precursors and is inducible by wounding and MeJA. The deduced protein contains a leader sequence and four predicted proline-rich peptides of 18-21 amino acids. Three of the four peptides were isolated from leaves, and each peptide contained hydroxylated prolines and glycosyl residues. Each of the peptides has a -GR- motif at its N terminus, indicating that it may be the substrate site for a processing enzyme. The peptides were active in a petunia suspension culture bioassay at nanomolar concentrations, but they did not induce the expression of defense genes that are directed against herbivores, as found in tobacco and tomato leaves. They did, however, activate expression of defensin 1, a gene associated with inducible defense responses against pathogens.