Your search keyword '"Kuchernig JC"' showing total 4 results

1. Neuromodulating Action of Cimicifuga racemosa for Alleviation of Vasomotor Symptoms

Author

Nicken, P, additional, Henneicke-von Zepelin, HH, additional, Kuchernig, JC, additional, Pickartz, S, additional, Naser, N, additional, and Nolte, KU, additional

Published

2019

2. Non-interventional observational study broadens positive benefit-risk assessment of an immunomodulating herbal remedy in the common cold.

Author

Henneicke-von Zepelin HH, Nicken P, Naser B, Kuchernig JC, Brien N, Holtdirk A, Schnitker J, and Nolte KU

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Female, Humans, Male, Middle Aged, Plant Extracts adverse effects, Proportional Hazards Models, Young Adult, Common Cold drug therapy, Echinacea, Fabaceae, Immunologic Factors therapeutic use, Plant Extracts therapeutic use, Risk Assessment, Thuja

Abstract

Background: The unique extract of a mixture of Baptisiae tinctoriae radix, Echinaceae pallidae/purpureae radix and Thujae occidentalis herba alleviates the typical symptoms of the common cold and shortens the duration of the disease. Purpose: The risk-benefit ratio of a concentrated formulation of this herbal extract was investigated under everyday conditions. Study design: Pharmacy-based, non-interventional, multicenter, open, uncontrolled study registered at DRKS00011068. Methods: For 10 days, patients completed a diary questionnaire rating the severity of each common cold symptom on a 10-point scale. For evaluation, symptoms were combined into the scores "overall severity", "rhinitis", "bronchitis" and "general symptoms". Cox models were used to evaluate the influence of covariates on the time of stable improvement. Results: In total 955 patients (12 to 90 years) were analyzed; 85% assessed the efficacy as good or very good. Response (improvement of the overall severity by at least 50%) was reached at median day 5 (95% CI median 5-5). General symptoms abated faster than the other complaints. The percentage of predominantly moderate or severe symptoms to predominantly mild or absent symptoms reversed on day 3.9 (interpolation). Results of adolescents and adults did not differ ( p =  .6013; HR = 0.918). Concomitant medication did not boost the effect of the herbal remedy. Early start of treatment of the cold accelerated the recovery ( p =  .0486; HR = 0.814). Thirty-four cases of adverse events were self-recorded in the diaries; none of them were serious. The tolerability was assessed as "good or very good" by 98% of the patients. Conclusion: The benefit-risk assessment of this herbal extract clearly remains positive. This non-interventional study accords with and shows transferability of the results of previous placebo-controlled studies with this extract in a real-life setting.

Published

2019

3. Evolution of specifier proteins in glucosinolate-containing plants.

Author

Kuchernig JC, Burow M, and Wittstock U

Subjects

Brassicaceae chemistry, DNA, Complementary genetics, Glycoside Hydrolases genetics, Phylogeny, Sequence Alignment, Sequence Analysis, Protein, Biological Evolution, Brassicaceae genetics, Glucosinolates biosynthesis, Plant Proteins genetics

Abstract

Background: The glucosinolate-myrosinase system is an activated chemical defense system found in plants of the Brassicales order. Glucosinolates are stored separately from their hydrolytic enzymes, the myrosinases, in plant tissues. Upon tissue damage, e.g. by herbivory, glucosinolates and myrosinases get mixed and glucosinolates are broken down to an array of biologically active compounds of which isothiocyanates are toxic to a wide range of organisms. Specifier proteins occur in some, but not all glucosinolate-containing plants and promote the formation of biologically active non-isothiocyanate products upon myrosinase-catalyzed glucosinolate breakdown., Results: Based on a phytochemical screening among representatives of the Brassicales order, we selected candidate species for identification of specifier protein cDNAs. We identified ten specifier proteins from a range of species of the Brassicaceae and assigned each of them to one of the three specifier protein types (NSP, nitrile-specifier protein, ESP, epithiospecifier protein, TFP, thiocyanate-forming protein) after heterologous expression in Escherichia coli. Together with nine known specifier proteins and three putative specifier proteins found in databases, we subjected the newly identified specifier proteins to phylogenetic analyses. Specifier proteins formed three major clusters, named AtNSP5-cluster, AtNSP1-cluster, and ESP/TFP cluster. Within the ESP/TFP cluster, specifier proteins grouped according to the Brassicaceae lineage they were identified from. Non-synonymous vs. synonymous substitution rate ratios suggested purifying selection to act on specifier protein genes., Conclusions: Among specifier proteins, NSPs represent the ancestral activity. The data support a monophyletic origin of ESPs from NSPs. The split between NSPs and ESPs/TFPs happened before the radiation of the core Brassicaceae. Future analyses have to show if TFP activity evolved from ESPs at least twice independently in different Brassicaceae lineages as suggested by the phylogeny. The ability to form non-isothiocyanate products by specifier protein activity may provide plants with a selective advantage. The evolution of specifier proteins in the Brassicaceae demonstrates the plasticity of secondary metabolism within an activated plant defense system.

Published

2012

4. A thiocyanate-forming protein generates multiple products upon allylglucosinolate breakdown in Thlaspi arvense.

Author

Kuchernig JC, Backenköhler A, Lübbecke M, Burow M, and Wittstock U

Subjects

Allyl Compounds chemistry, Amino Acid Sequence, DNA, Complementary genetics, Escherichia coli genetics, Escherichia coli metabolism, Ferrous Compounds, Gene Expression, Glucosinolates chemistry, Glycoside Hydrolases metabolism, Hydrogen-Ion Concentration, Hydrolysis, Nitriles chemistry, Nitriles metabolism, Phylogeny, Plant Components, Aerial chemistry, Plant Proteins genetics, Plant Proteins isolation & purification, Plant Roots chemistry, Quaternary Ammonium Compounds, RNA, Plant genetics, Recombinant Proteins genetics, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Sequence Alignment, Substrate Specificity, Thiocyanates chemistry, Thlaspi chemistry, Thlaspi enzymology, Thlaspi genetics, Allyl Compounds metabolism, Glucosinolates metabolism, Plant Proteins metabolism, Thiocyanates metabolism, Thlaspi metabolism

Abstract

Glucosinolates, amino acid-derived thioglycosides found in plants of the Brassicales order, are one of the best studied classes of plant secondary metabolites. Together with myrosinases and supplementary proteins known as specifier proteins, they form the glucosinolate-myrosinase system that upon tissue damage gives rise to a number of biologically active glucosinolate breakdown products such as isothiocyanates, epithionitriles and organic thiocyanates involved in plant defense. While isothiocyanates are products of the spontaneous rearrangement of the glucosinolate aglycones released by myrosinase, the formation of epithionitriles and organic thiocyanates depends on both myrosinases and specifier proteins. Hydrolysis product profiles of many glucosinolate-containing plant species indicate the presence of specifier proteins, but only few have been identified and characterized biochemically. Here, we report on cDNA cloning, heterologous expression and characterization of TaTFP, a thiocyanate-forming protein (TFP) from Thlaspi arvense L. (Brassicaceae), that is expressed in all plant organs and can be purified in active form after heterologous expression in Escherichia coli. As a special feature, this protein promotes the formation of allylthiocyanate as well as the corresponding epithionitrile upon myrosinase-catalyzed hydrolysis of allylglucosinolate, the major glucosinolate of T. arvense. All other glucosinolates tested are converted to their simple nitriles when hydrolyzed in the presence of TaTFP. Despite its ability to promote allylthiocyanate formation, TaTFP has a higher amino acid sequence similarity to known epithiospecifier proteins (ESPs) than to Lepidium sativum TFP. However, unlike Arabidopsis thaliana ESP, its activity in vitro is not strictly dependent on Fe²⁺ addition to the assay mixtures. The availability of TaTFP in purified form enables future studies to be aimed at elucidating the structural bases of specifier protein specificities and mechanisms. Furthermore, identification of TaTFP shows that product specificities of specifier proteins can not be predicted based on amino acid sequence similarity and raises interesting questions about specifier protein evolution., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011