Anti-Inflammatory Activity and Quality Control of Erysimum cheiri (L.) Crantz.

Wallflower (Erysimum cheiri) is employed as a popular herbal drug in traditional Persian medicine. Topical formulations including cerates, lotions, sitz baths, and poultices for inflammatory disorders such as arthritis, anal fissure, endometriosis, and mastitis are known. However, there is no monograph in current pharmacopoeia for the wallflower drug. The present study is aimed to screen in vitro anti-inflammatory activity of wallflower and perform quality control and characterization tests for different organs of the herb. In this regard, albumin denaturation activity, macroscopic and microscopic, phytochemical, HPTLC, and FT-IR characteristics were investigated. Wallflower showed strong anti-inflammatory activity compared to diclofenac sodium. The root (1.25, 2.5, and 5 mg/mL) and flower (10 mg/mL) extract exhibited higher anti-inflammatory activities than that of other plant organs at the same concentrations. Moreover, total ash was found higher in aerial parts (21.52 ± 0.06%) than flower (11.01 ± 0.03%), root (5.03 ± 0.03%), and seed (6.95 ± 0.06%), while water-soluble ash was higher in seed (34.89 ± 0.26%) than flower (5.00 ± 0.03%), aerial parts (7.16 ± 0.06%), and root (5.04 ± 0.01%). Acid-insoluble ash and sulphated ash were higher in root (9.50 ± 0.04%) and aerial part (28.37 ± 0.57%), respectively. In addition, loss on drying was ranged from 2.20 ± 0.20% in flowers to 6.00 ± 0.10% in aerial parts. On the other hand, HPTLC analysis verified cardenolide compounds in all organs of the herb, and quercetin was detected in the flavonoid fingerprint of acid hydrolysed flowers. According to FT-IR results, the observed spectral region at ~3500 cm-1 attributed to -OH stretching vibration. Also, C-H (~2900-2950 cm-1), isothiocyanate (~2340 cm-1), -C=O (~1740 cm-1), conjugated C=C of the aromatic ring (~1650 cm-1), and structure of the aromatic group (~1200-1000 cm-1) were monitored. This work is the first study to the best of our knowledge, suggesting wallflower as a potential drug candidate with the basis for a monograph in addition to initial in vitro anti-inflammatory data.

Independent evolution of ancestral and novel defenses in a genus of toxic plants (Erysimum, Brassicaceae).

Phytochemical diversity is thought to result from coevolutionary cycles as specialization in herbivores imposes diversifying selection on plant chemical defenses. Plants in the speciose genus Erysimum (Brassicaceae) produce both ancestral glucosinolates and evolutionarily novel cardenolides as defenses. Here we test macroevolutionary hypotheses on co-expression, co-regulation, and diversification of these potentially redundant defenses across this genus. We sequenced and assembled the genome of E. cheiranthoides and foliar transcriptomes of 47 additional Erysimum species to construct a phylogeny from 9868 orthologous genes, revealing several geographic clades but also high levels of gene discordance. Concentrations, inducibility, and diversity of the two defenses varied independently among species, with no evidence for trade-offs. Closely related, geographically co-occurring species shared similar cardenolide traits, but not glucosinolate traits, likely as a result of specific selective pressures acting on each defense. Ancestral and novel chemical defenses in Erysimum thus appear to provide complementary rather than redundant functions.

Plants are often attacked by insects and other herbivores. As a result, they have evolved to defend themselves by producing many different chemicals that are toxic to these pests. As producing each chemical costs energy, individual plants often only produce one type of chemical that is targeted towards their main herbivore. Related species of plants often use the same type of chemical defense so, if a particular herbivore gains the ability to cope with this chemical, it may rapidly become an important pest for the whole plant family. To escape this threat, some plants have gained the ability to produce more than one type of chemical defense. Wallflowers, for example, are a group of plants in the mustard family that produce two types of toxic chemicals: mustard oils, which are common in most plants in this family; and cardenolides, which are an innovation of the wallflowers, and which are otherwise found only in distantly related plants such as foxglove and milkweed. The combination of these two chemical defenses within the same plant may have allowed the wallflowers to escape attacks from their main herbivores and may explain why the number of wallflower species rapidly increased within the last two million years. Züst et al. have now studied the diversity of mustard oils and cardenolides present in many different species of wallflower. This analysis revealed that almost all of the tested wallflower species produced high amounts of both chemical defenses, while only one species lacked the ability to produce cardenolides. The levels of mustard oils had no relation to the levels of cardenolides in the tested species, which suggests that the regulation of these two defenses is not linked. Furthermore, Züst et al. found that closely related wallflower species produced more similar cardenolides, but less similar mustard oils, to each other. This suggests that mustard oils and cardenolides have evolved independently in wallflowers and have distinct roles in the defense against different herbivores. The evolution of insect resistance to pesticides and other toxins is an important concern for agriculture. Applying multiple toxins to crops at the same time is an important strategy to slow the evolution of resistance in the pests. The findings of Züst et al. describe a system in which plants have naturally evolved an equivalent strategy to escape their main herbivores. Understanding how plants produce multiple chemical defenses, and the costs involved, may help efforts to breed crop species that are more resistant to herbivores and require fewer applications of pesticides.

Efficacy of gummy lozenges containing Erysimum as ancillary treatment in children with sore throat.

BACKGROUND: Sore throat frequently occurs in children aged between four and fifteen years and is often associated to inflammation of the upper respiratory tract mucosa. A reliable approach to limit the damage caused by inflammation and, therefore, to alleviate associated symptoms might be the protection of the mucosa. Aim of this study was to assess the efficacy and tolerability of a medical device, formulated as a gummy lozenge and containing a combination of natural functional components (Erysimum, aloe vera and Xilogel®) able to exert a barrier effect on the mucosa, as ancillary treatment in children with sore throat. METHODS: This was an observational, prospective, parallel-group, multiple-dose trial of a medical device given in association to standard pharmacological prescribed therapy with an open label comparison vs. standard pharmacological prescribed therapy alone. The outcome measures of the study were assessed at baseline and after three days of treatment. RESULTS: One hundred and twelve school children with sore throat symptoms were recruited for this study and 69 were assigned to the group taking the study product. At the end of the treatment a statistically higher reduction in Sore Throat Pain Intensity Score and Pharyngitis Symptom Score was observed in the group taking the medical device. Moreover, the treatment with the medical device is associated to a statistically significant higher improvement of Child's General Conditions. The pediatrician assessed the efficacy and tolerability of the product under study as good/very good in 91% and 94%, respectively, of treated children. The consumer satisfaction questionnaire revealed that most of the children taking the lozenge rated it very positively in regard to its flavor and easiness of administration. CONCLUSIONS: The medical device used in this study may represent a valid choice as an adjuvant treatment in children with sore throat associated to upper respiratory tract infection.

[STUDY OF CYTOTOXIC ACTIVITY OF METHANOL EXTRACTS OF THE ENDEMIC PLANT OF THE GENUS ERYSIMUM OF THE ADJARIAN FLORISTIC DISTRICT OF GEORGIA].

According to the results, investigated methanolic extracts of endemic plant from Adjarian floristic region of Georgia do not have specific cytotoxicity against the cell lines of breast adenocarcinoma MCF-7 human, which is typical, e.g., for plant pigment curcumin. At the same time, the high specific cytotoxicity of 2 and 3 fractions towards keratinocytes gives reason for considering endemic plant extracts, of Adjarian floristic region of Georgia, as a potential pharmacological means for topical treatment of pathologies caused by increased proliferation of keratinocytes, such as psoriasis.

Progesterone 5ß-reductase of Erysimum crepidifolium: cDNA cloning, expression in Escherichia coli, and reduction of enones with the recombinant protein.

Erysimum is a genus of the Brassicaceae family closely related to the genus Arabidopsis. Several Erysimum species accumulate 5ß-cardenolides. Progesterone 5ß-reductases (P5ßRs) first described in Digitalis species are thought to be involved in 5ß-cardenolide biosynthesis. P5ßRs belong to the dehydrogenase/reductase super-family of proteins. A full length cDNA clone encoding a P5ßR was isolated from Erysimum crepidifolium leaves by 5'/3' RACE-PCR (termed EcP5ßR). Subsequently, the P5ßR cDNAs of another nine Erysimum species were amplified by RT-PCR using 5' and 3' end primers deduced from the EcP5ßR cDNA. The EcP5ßR cDNA is 1170bp long and encodes for 389 amino acids. The EcP5ßR cDNA was ligated into the vector pQE 30 UA and the recombinant His-tagged protein (termed rEcP5ßR) was over-expressed in Escherichia coli and purified by Ni-chelate affinity chromatography. Kinetic constants were determined for progesterone, 2-cyclohexen-1-one, isophorone, and NADPH. The by far highest specificity constant (k(cat)K(M)⁻¹) was estimated for 2-cyclohexen-1-one indicating that this monocyclic enone may be more related to the natural substrate of the enzyme than progesterone. The atomic structure of rEcP5ßR was modelled using the crystal structure of P5ßR from Digitalis lanata 2V6G as the template. All sequence motifs specific for SDRs as well as the NFYYxxED motif typical for P5ßR-like enzymes were present and the protein sequence fitted into the template smoothly.

Effects of erysimin G on renal tubular function and 70-pS K+ channel activity of thick ascending limb.

AIM: To study the effect of erysimin G (CH35H52O13) on the thick ascending limb (TAL) 70-pS K+ channel of rat kidney and its effect on diuresis. METHODS: The patch-clamp cell-attached recording technique was used to record the single potassium channel current, and the urine volume (UV) was measured by urethral intubation to determine the diuretic effect. RESULTS: Erysimin G can increase the urine volume and decrease the 70-pS potassium channel activity of TAL. CONCLUSION: Erysimin G has a diuretic effect and its inhibition on the activity of apical 70-pS potassium channel may be the mechanism of its diuretic effect.