Estratégias anti-aging baseadas em moléculas químicas naturais como potentes ativadores de telomerase / Anti-aging strategies based on natural chemical molecules as potent telomerase activators / Estrategias antienvejecimiento basadas en moléculas químicas naturales como potentes activadores de la telomerasa

Mesmo em tempos modernos, os grandes avanços tecnológicos não permitem de forma comprovada retardar o envelhecimento nos seres humanos. Neste sentido, uma das estratégias é o uso moléculas químicas naturais que possuem a ação de ativadores de telomerase, uma vez de que a telomerase é uma ribonucleoproteína transcriptase reversa que possui a função de alongar os telômeros e neutralizar a erosão normal dos telômeros. Neste contexto, este estudo de revisão dedicou-se a aprofundar o conhecimento sobre o uso de moléculas químicas naturais derivadas de plantas que possuem função de ativadores de telomerase para atividade anti-aging. Inúmeras moléculas têm sido propostas e, estudas os seus mecanismos com o intuito de desenvolver novas ferramentas para prevenir/retardar e tratar doenças relacionadas a idade e o envelhecimento. Adicionalmente, o uso de moléculas como ativadores da telomerase têm sido um meio de prolongar o encurtamento dos temoleros, como no caso, de moléculas isolada da erva Astragalus membranaceus (TA-65), curcumina, silbinina e alicina; ademais, outras moléculas de origem natural possuem atividade anti-aging comprovadas, conforme reportadas nesta revisão. Sendo assim, a procura por biomarcadores à base de compostos químicos naturais que estimulem a telomerase, a fim de prolongar a vida dos telômero e assim, retardar o processo de envelhecimento do organismo têm despertado o interesse de diversos pesquisadores ao redor do mundo.

Even in modern times, the great technological advances do not allow in a proven way to delay aging in humans. In this sense, one of the strategies is the use of natural chemical molecules that have telomerase activators, since telomerase is a ribonucleoprotein reverse transcriptase that has the function of lengthening telomeres and neutralizing the normal erosion of telomeres. In this context, this review study was dedicated to deepening the knowledge about the use of natural chemical molecules derived from plants that have telomerase activator function for anti-aging activity. Numerous molecules have been proposed and their mechanisms studied in order to develop new tools to prevent/delay and treat aging-related diseases. Additionally, the use of molecules as telomerase activators has been a means of prolonging the shortening of temolers, as in the case of molecules isolated from the herb Astragalus membranaceus (TA-65), curcumin, silbinin and allicin; in addition, other molecules of natural origin have proven anti-aging activity, as reported in this review. Therefore, the search for biomarkers based on natural chemical compounds that stimulate telomerase in order to prolong the life of telomeres and, thus delay the aging process of the organism has aroused the interest of several researchers around the world.

Aún en los tiempos modernos, los grandes avances tecnológicos no permiten de manera comprobada retrasar el envejecimiento en los humanos. En este sentido, una de las estrategias es el uso de moléculas químicas naturales que tengan activadores de la telomerasa, ya que la telomerasa es una ribonucleoproteína transcriptasa inversa que tiene la función de alargar los telómeros y neutralizar la erosión normal de los telómeros. En este contexto, este estudio de revisión se dedicó a profundizar en el conocimiento sobre el uso de moléculas químicas naturales derivadas de plantas que tienen función activadora de la telomerasa para la actividad antienvejecimiento. Se han propuesto numerosas moléculas y se han estudiado sus mecanismos para desarrollar nuevas herramientas para prevenir/retrasar y tratar enfermedades relacionadas con el envejecimiento. Adicionalmente, el uso de moléculas como activadores de la telomerasa ha sido un medio para prolongar el acortamiento de temolers, como es el caso de moléculas aisladas de la hierba Astragalus membranaceus (TA-65), curcumina, silbinina y alicina; además, otras moléculas de origen natural han demostrado actividad antienvejecimiento, como se reporta en esta revisión. Por ello, la búsqueda de biomarcadores basados en compuestos químicos naturales que estimulen la telomerasa para prolongar la vida de los telómeros y así retrasar el proceso de envejecimiento del organismo ha despertado el interés de varios investigadores a nivel mundial.

Effects of Spices (Saffron, Rosemary, Cinnamon, Turmeric and Ginger) in Alzheimer's Disease.

Alzheimer's disease (AD) is the most prevalent dementia in the elderly, causing disability, physical, psychological, social, and economic damage to the individual, their families, and caregivers. Studies have shown some spices, such as saffron, rosemary, cinnamon, turmeric, and ginger, have antioxidant and anti-inflammatory properties that act in inhibiting the aggregation of acetylcholinesterase and amyloid in AD. For this reason, spices have been studied as beneficial sources against neurodegenerative diseases, including AD. In this sense, this study aims to present a review of some spices (Saffron, Rosemary, Cinnamon, Turmeric and Ginger) and their bioactive compounds, most consumed and investigated in the world regarding AD. In this article, scientific evidence is compiled in clinical trials in adults, the elderly, animals, and in vitro, on properties considered neuroprotective, having no or negative effects on neuroprotection of these spices and their bioactive compounds. The importance of this issue is based on the pharmacological treatment for AD that is still not very effective. In addition, the recommendations and prescriptions of these spices are still permeated by questioning and lack of robust evidence of their effects on neurodegeneration. The literature search suggests all spices included in this article have bioactive compounds with anti-inflammatory and antioxidant actions associated with neuroprotection. To date, the amounts of spice ingestion in humans are not uniform, and there is no consensus on its indication and chronic consumption guarantees safety and efficacy in neuroprotection. Therefore, clinical evidence on this topic is necessary to become a formal adjuvant treatment for AD.

Cognitive decline prevention in offspring of Pb+2 exposed mice by maternal aerobic training and Cur/CaCO3@Cur supplementations: In vitro and in vivo studies.

Heavy metals are considered contaminants that hazardously influence the healthy life of humans and animals as they are widely used in industry. Contact of youngsters and women at ages of parturition with lead (Pb+2) is a main related concern, which passes through the placental barricade and its better absorption in the intestine leads to flaws in the fetal developfment. However, the metals threaten animal and human life, in particular throughout developmental stages. Products existing in the nature have a major contribution to innovating chemo-preventives. As a naturally available polyphenol and necessary curcuminoid, curcumin (Cur) is a derivative of the herb Curcuma longa (L.) rhizome, which globally recognized as "wonder drug of life"; however, Cur has a limited clinical use as it is poorly dissolved in water. Therefore, to enhance its clinically relevant parameters, curcumin-loaded calcium carbonate (CaCO3@Cur) was synthesized by one step coprecipitation method as a newly introduced in this research. Initially, its structure was physio chemically characterized using FT-IR, FESEM and DLS equipment and then the cytotoxicity of lead when it was pretreated with Cur/CaCO3@Cur were assessed by MTT assay. Both Cur and CaCO3@Cur diminished the toxic effects of Pb+2 while the most protective effect on the Pb+2 cytotoxicity was achieved by pre-incubation of cells with CaCO3@Cur. Besides, the morphological changes of Pb+2-treated cells that were pre-incubated with or without Cur/CaCO3@Cur were observed by normal and florescent microscopes. A non-pharmacologic method that lowers the hazard of brain damage is exercise training that is capable of both improving and alleviating memory. In the current study, the role of regular aerobic training and CaCO3@Cur was assessed in reducing the risk of brain damage induced by lead nitrate contact. To achieve the mentioned goal, pregnant Balb/C mice were assigned to five groups (six mice/group) at random: negative and positive controls, aerobic training group and Cur and CaCO3@Cur treated (50 mg/kg/b.wt) trained groups that exposed to Pb+2 (2 mg/kg) by drinking water during breeding and pregnancy. With the completion of study, offspring were subjected to the behavioral tasks that was tested by step-through ORT, DLB, MWM and YM tests. As a result, having regular aerobic training and CaCO3@Cur co-administration with lead nitrate could reverse the most defected behavioral indicators; yet, this was not visible for both sexes and it seems that gender can also be a source of different effects in the animal's body. In fact, having regular aerobic training along with CaCO3@Cur supplementation during pregnancy may be encouraging protecting potential agents towards the toxicity of Pb+2 that could be recommended in the areas with high pollution of heavy metals.

Effects of turmeric extract supplementation on inflammation and muscle damage after a half-marathon race: a randomized, double-blind, placebo-controlled trial.

PURPOSE: Strenuous exercise induces inflammation and muscle damage. Turmeric (Curcuma longa L.) is a widely used spice that exhibits potent anti-inflammatory response and appears to decrease indirect markers of muscle damage. A randomized, double-blind, placebo-controlled trial was conducted to evaluate the effects of Curcuma longa L. extract (CLE) on inflammation and muscle damage after a half-marathon race. METHODS: Twenty-eight healthy, normal-weight men were randomly assigned to one of two groups: (1) CLE (3 capsules per day, 500 mg each); or (2) placebo (PLA, 3 capsules per day, 500 mg of microcrystalline cellulose). Participants received the intervention for 4 weeks and immediately before and after the half-marathon race. Creatine kinase, lactate dehydrogenase, alanine aminotransferase, aspartate aminotransferase, myoglobin, interleukins 6 and 10 were assessed at baseline, immediately before, after, and at 2, 24, and 48 h after the half-marathon race. RESULTS: The half-marathon race increased markers of inflammation and muscle damage. A greater increase in interleukin-10 was observed in the CLE group immediately after the competition compared to the PLA group (7.54 ± 1.45 vs 5.25 ± 0.59 pg/mL; p < 0.05; d = 0.55). Myoglobin concentration was lower 2 h after the race in participants from the CLE group compared to the PLA group (62.10 ± 8.26 vs 107.85 ± 18.45 ng/mL; p = 0.01; d = 0.86). CONCLUSION: Curcuma longa L. extract supplementation leads to an increase in IL-10 and decreased myoglobin in recreational male runners after a half-marathon race. TRIAL REGISTRATION NUMBER: U1111-1179-6335, February 13, 2016.

In vitro mineral nutrition of Curcuma longa L. affects production of volatile compounds in rhizomes after transfer to the greenhouse.

BACKGROUND: Turmeric is a rich source of bioactive compounds useful in both medicine and cuisine. Mineral concentrations effects (PO43-, Ca2+, Mg2+, and KNO3) were tested during in vitro rhizome development on the ex vitro content of volatile constituents in rhizomes after 6 months in the greenhouse. A response surface method (D-optimal criteria) was repeated in both high and low-input fertilizer treatments. Control plants were grown on Murashige and Skoog (MS) medium, acclimatized in the greenhouse and grown in the field. The volatile constituents were investigated by GC-MS. RESULTS: The total content of volatiles was affected by fertilizer treatments, and in vitro treatment with Ca2+ and KNO3; but PO43- and Mg2+ had no significant effect. The content was higher in the high-input fertilizer treatments (49.7 ± 9 mg/g DM) with 4 mM Ca2+, 60 mM KNO3 and 5 mM NH4+, than the low-input fertilizer (26.6 ± 9 mg/g DM), and the MS control (15.28 ± 2.7 mg/g DM; 3 mM Ca2+, 20 mM K+, 39 mM NO3-, 20 mM NH4+, 1.25 mM PO43-, and 1.5 mM Mg2+). The interaction of Ca2+ with KNO3 affected curcumenol isomer I and II, germacrone, isocurcumenol, and ß-elemenone content. Increasing in vitro phosphate concentration to 6.25 mM increased ex vitro neocurdione and methenolone contents. CONCLUSION: These results show that minerals in the in vitro bioreactor medium during rhizome development affected biosynthesis of turmeric volatile components after transfer to the greenhouse six months later. The multi-factor design identified 1) nutrient regulation of specific components within unique phytochemical profile for Curcuma longa L. clone 35-1 and 2) the varied phytochemical profiles were maintained with integrity during the greenhouse growth in high fertility conditions.

Antibiotic-producing Pseudomonas fluorescens mediates rhizome rot disease resistance and promotes plant growth in turmeric plants.

Rhizome rot of turmeric caused by Pythium aphanidermatum is a major threat to turmeric-cultivating areas of India. This study intends to evaluate the performance of fluorescent pseudomonads against Rhizome rot disease and understand the resistance mechanism in Turmeric plants. Fluorescent pseudomonads were screened against Pythium aphanidermatum using dual culture. Selected strains were evaluated for the performance of growth promoting attributes and the presence of antibiotic genes through PCR analysis. Strain FP7 recorded the maximum percent inhibition of P. aphanidermatum under in vitro conditions. Strains FP7 and TPF54 both increased plant growth in turmeric plants in vitro. Strain FP7 alone contained all the evaluated antibiotic biosynthetic genes. Talc and liquid-based formulations were prepared with effective strain and tested for its biocontrol activities under both glasshouse and field conditions. Enzymatic activities of the induced defense enzymes such as PO, PPO, PAL, CAT and SOD were estimated and subjected to spectrophotometric analysis. A combination of rhizome dip and soil drench of FP7 liquid formulation treatment remarkably recorded the minimum disease incidence, higher defense enzymes, maximum plant growth and yield under glasshouse and field conditions. Application of strain FP7 increased the defense molecules, plant growth and yield in turmeric plants thereby reducing the incidence of rhizome rot disease. Moreover, this study has a potential to be adopted for sustainable and eco-friendly turmeric production.

Risperidone-induced metabolic dysfunction is attenuated by Curcuma longa extract administration in mice.

Antipsychotics, such as risperidone, increase food intake and induce alteration in glucose and lipid metabolism concomitantly with overweight and body fat increase, these biological abnormalities belong to the metabolic syndrome definition (high visceral adiposity, hypertriglyceridemia, hyperglycemia, low HDL-cholesterol and high blood pressure). Curcumin is a major component of traditional turmeric (Curcuma longa) which has been reported to improve lipid and glucose metabolism and to decrease weight in obese mice. We questioned the potential capacity of curcumin, contained in Curcuma longa extract (Biocurcuma™), to attenuate the risperidone-induced metabolic dysfunction. Two groups of mice were treated once a week, for 22 weeks, with intraperitoneal injection of risperidone (Risperdal) at a dose 12.5 mpk. Two other groups received intraperitoneal injection of the vehicle of Risperdal following the same schedule. Mice of one risperidone-treated groups and of one of vehicle-treated groups were fed a diet with 0.05% Biocurcuma™ (curcumin), while mice of the two other groups received the standard diet. Curcumin limited the capacity of risperidone to reduce spontaneous motricity, but failed to impede risperidone-induced increase in food intake. Curcumin did not reduce the capacity of risperidone to induce weight gain, but decreased visceral adiposity and decreased the risperidone-induced hepatomegaly, but not steatosis. Furthermore, curcumin repressed the capacity of risperidone to induce the hepatic over expression of enzymes involved in lipid metabolism (LXRα, FAS, ACC1, LPL, PPARγ, ACO, SREBP2) and decreased risperidone-induced glucose intolerance and hypertriglyceridemia. Curcumin decreased risperidone-induced increases in serum markers of hepatotoxicity (ALAT, ASAT), as well as of one major hepatic pro-inflammatory transcription factor (NFκB: p105 mRNA and p65 protein). These findings support that nutritional doses of curcumin contained in Curcuma longa extract are able to partially counteract the risperidone-induced metabolic dysfunction in mice, suggesting that curcumin ought to be tested to reduce the capacity of risperidone to induce the metabolic syndrome in human.

Actividad biológica de tres Curcuminoides de Curcuma longa L. (Cúrcuma) cultivada en el Quindío-Colombia / Biological activity of three curcuminoids from Curcuma longa L. (turmeric) grown in Quindío, Colombia

Introducción: Curcuma longa L. es una planta de la familia Zingiberaceae distribuida en las regiones tropicales y subtropicales, utilizada en la industria alimentaria, en medicina y en cosmética. Su colorante principal es la curcumina, un polifenol con múltiples efectos medicinales. Objetivos: obtener, caracterizar químicamente y evaluar la actividad biológica de tres curcuminoides de C. longa, cultivada en el Quindío-Colombia. Métodos: se purificaron tres curcuminoides (curcumina (C), demetoxicurcumina (DMC) y bisdemetoxicurcumina (BDMC) desde el rizoma de la planta, en estado seco, por cromatografía en columna y se caracterizaron por punto de fusión, espectroscopía infrarroja (IR), espectroscopía UV-vis y espectrometría de masas. Se evaluó la actividad antimicrobiana en bacterias y hongos por el método modificado de pozos de agar, la citotoxicidad sobre células BHK-21 por el método de bromuro de 3-(4,5- dimetiltiazol-2-ilo)-2,5-difeniltetrazol (MTT) y la toxicidad sobre Artemia salina. Finalmente se determinó el efecto de los curcuminoides en células BHK-21 infectadas con dengue virus 2. Resultados: la curcumina presentó mayor punto de fusión (177,3 ºC-183,2 ºC). El espectro IR reveló los grupos funcionales característicos y el UV-vis indicó máximos de absorción para curcumina, demetoxicurcumina y bisdemetoxicurcumina de 419, 418 y 414 nm en cloroformo, respectivamente. El espectro de masas mostró m/z para C: 368, DMC: 338 y BDMC: 308. Se encontró actividad antimicrobiana frente a Staphylococcus aureus y Staphylococcus epidermidis, se determinó que BDMC presentó menor toxicidad y se evidenció mayor efecto inhibitorio sobre viriones infectivos de dengue con curcumina a 20 y 30 M. Conclusiones: la caracterización de los compuestos confirma su composición como polifenoles, lo cual se relaciona a la actividad biológica de éstos, encontrándose principalmente que la curcumina altera la infección por virus dengue en cultivo celular. Esta investigación confirma la importancia de los principios activos de plantas con amplio espectro farmacológico como C. longa(AU)

Introduction: Curcuma longa L. is a plant from the family Zingiberaceae distributed in tropical and subtropical regions and used in the food industry, in medicine and in cosmetics. Its main coloring substance is curcumin, a polyphenol with many medicinal properties. Objectives: Obtain, characterize chemically and evaluate the biological activity of three curcuminoids from C. longa grown in Quindío, Colombia. Methods: Three curcuminoids (curcumin (C), demethoxycurcumin (DMC) and bisdemethoxycurcumin BDMC) from the rhizome of the plant were purified in a dry state by column chromatography and characterized by fusion point, infrared (IR) spectroscopy, UV-vis spectroscopy and mass spectrometry. Antimicrobial activity against bacteria and fungi was evaluated by the modified agar well method, cytotoxicity to BHK-21 cells by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) method, and toxicity against Artemia salina. Finally, determination was made of the effect of the curcuminoids in BHK-21 cells infected with dengue virus 2. Results: Curcumin had the highest fusion point (177.3 ºC-183.2 ºC). IR spectroscopy revealed the characteristic functional groups and UV-vis spectroscopy showed maximum absorption values for curcumin, demethoxycurcumin and bisdemethoxycurcumin of 419, 418 and 414 nm in chloroform, respectively. Mass spectrometry found that m/z values were C: 368, DMC: 338 and BDMC: 308. Antimicrobial activity was observed against Staphylococcus aureus and Staphylococcus epidermidis. BDMC was found to have lower toxicity. A greater inhibitory effect against infective dengue virions was observed with curcumin at 20 y 30 µM. Conclusions: Characterization of the compounds confirms their polyphenolic composition, which manifests in their biological activity, mainly the capacity of curcumin to alter infection by dengue virus in cell cultures. The study corroborated the importance of the active principles of plants with a wide pharmacological spectrum, such as C. longa(AU)

Revisão sistemática das plantas de Interesse ao Sistema Único de Saúde com potencial terapêutico cardiovascular / Revisión sistemática de las plantas de interés para el Sistema de Salud con potencial terapéutico cardiovascular / Systematic review of the plants of interest to the National Health System with cardiovascular therapeutic potential

Introdução: doenças cardiovasculares constituem uma das principais causas de mortalidade, pois muitos são os fatores de risco associados ao seu desenvolvimento. Estudos vêm demonstrando que moléculas extraídas de plantas medicinais podem reduzir o risco de doenças crônicas. Assim, o Ministério da Saúde, publicou em fevereiro de 2009, a Relação Nacional de Plantas Medicinais de Interesse ao SUS. Objetivos: quantificar os estudos clínicos que referem potencial terapêutico sobre doenças cardiovasculares a partir da utilização de Plantas da Medicinais de Interesse ao SUS, publicados entre 2010 e fevereiro de 2013 em três bases de dados científicas (SciELO, Science Direct e Springer). Métodos: os descritores utilizados na busca inicial foram o nome científico das 71 plantas da Relação Nacional de Plantas Medicinais de Interesse ao SUS. Considerou-se todos os artigos científicos gratuitos, disponibilizados sob forma de texto completo nas bases de pesquisa, independente do idioma. A busca inicial resultou na seleção de 21,357 artigos encontrados nas bases de dados. A análise foi realizada inicialmente a partir da leitura do título da publicação. Os artigos selecionados foram avaliados através da leitura do Abstratc. Por fim, foi lido integralmente o texto dos artigos selecionados após a avaliação do Abstract, tendo sido selecionados estudos pré-clínicos e clínicos, in vitro e in vivo, que comprovam potencial terapêutico sobre doenças cardiovasculares. Resultados: esta seleção resultou em 34 artigos de interesse, dos quais, 17 estudos foram realizados com a planta Curcuma longa. Infarto do miocárdio, isquemia cerebral e hipertensão arterial foram as morbidades com a maior quantidade de estudos terapêuticos. Conclusões: os resultados deste estudo fornecem subsídios teóricos para discussões na Saúde Pública sobre tratamentos alternativos para doenças cardiovasculares(AU)

Introducción: las enfermedades cardiovasculares constituyen una de las principales causas de mortalidad, al existir muchos factores de riesgo asociados a su aparición. Hay estudios que demuestran que moléculas extraídas de plantas medicinales pueden reducir el riesgo de enfermedades crónicas. De esta forma, el Ministerio de Salud, publicó en febrero de 2009, la Lista Nacional de Plantas Medicinales de Interés para el SUS. Objetivos: cuantificar los estudios clínicos que refieren potencial terapéutico sobre las enfermedades cardiovasculares a partir de la utilización de Plantas da Medicinais de Interesse ao SUS, publicados entre 2010 y febrero de 2013 en tres bases de datos científicas (SciELO, Science Direct y Springer). Métodos: los descriptores utilizados en la búsqueda inicial fueron el nombre científico de 71 plantas de Plantas da Medicinais de Interesse ao SUS. Se consideraron todos los artículos científicos gratuitos, disponibles en texto completo en las bases de investigación, independiente del idioma. Primero se seleccionaron 21,357 artículos encontrados en las bases de datos. El análisis fue realizado a partir de la lectura del título de publicación. Los artículos seleccionados fueron evaluados a través de la lectura del Abstract. Por último, fueron leídos de forma íntegra el texto de los artículos seleccionados después de la evaluación del Abstract, fueron seleccionados estudios pre-clínicos y clínicos in vitro e in vivo, que comprueban el potencial terapéutico sobre las enfermedades cardiovasculares. Resultados: esta selección resultó de 34 artículos de interés, de los cuales, 17 estudios fueron realizados con la planta Curcuma longa. Infarto de miocardio, isquemia cerebral e hipertensión arterial fueron las comorbilidades con la mayor cantidad de estudios terapéuticos. Conclusiones: los resultados de este estudio ofrecen subsidios teóricos para discusiones en Salud Pública sobre tratamientos alternativos para las enfermedades cardiovasculares(AU)

Introduction: cardiovascular diseases are a major cause of mortality, because there are many risk factors associated with its development. Studies have shown that molecules extracted from medicinal plants can reduce the risk of chronic diseases. Thus, the Ministry of Health, published in February 2009, the National List of Medicinal Plants of Interest to SUS. Objective: to quantify the clinical studies that relate therapeutic potential of cardiovascular disease from the use of the National List of Medicinal Plants of Interest to SUS, published between 2010 and February 2013 in three scientific databases (SciELO, Science Direct and Springer). Methods: the descriptors used in the initial search were the scientific name of the 71 plants from the National List of Medicinal Plants of Interest to SUS. It considered all free papers made available in the form of full text search in databases, regardless of the language. The initial search resulted in the selection of 21 357 articles found in databases. The analysis was initially performed from reading the title of the publication. The articles were evaluated by reading the Abstratc. Finally, it was fully read the text of the articles selected after evaluation of the Abstract and was selected pre-clinical and clinical studies, in vitro and in vivo, that show therapeutic potential for cardiovascular disease. Results: this selection resulted in 34 articles of interest, of which 17 studies were conducted with the Curcuma longa plant. Myocardial infarction, cerebral ischemia and hypertension were morbidities with the greatest amount of therapeutic studies. Conclusions: the results of this study provide theoretical basis for discussions at the Public Health on alternative treatments for cardiovascular disease(AU)

Differential effect of soil and environment on metabolic expression of turmeric (Curcuma longa cv. Roma).

Curcuma longa (Zingiberaceae) is known for its uses in medicine, cosmetics, food flavouring and textile industries. The secondary metabolites of turmeric like essential oil, oleoresin and curcumin are important for its multipurpose uses. These traits of turmeric vary from place to place due to the influence of environment, soil and agro-climatic conditions. Here, we analyzed turmeric from different agroclimatic regions for influence of various factors on its growth and yield of important phytochemicals. A high curcumin yielding cultivar i.e., Roma was collected from high altitude research station, Koraput (HARS) and planted in nine agroclimatic regions of Odisha. Analysis of soil texture, pH, organic carbon, micro and macro nutrients were done from all the studied zones up to 2nd generation. Plants grown in their released station i.e., Eastern Ghat High Land showed 5% of curcumin and were taken as control. Plants grown in different agroclimatic zones showed a range of 1.4-5% of curcumin and 0.3-0.7% of rhizome essential oil and 0.3-1% of leaf essential oil content. Gas chromatography and mass spectra analysis showed tumerone and alpha phellandrene as the major compounds in all the zones with 10-20% variation. The present study will be immensely helpful for standardization and management of environmental and ecological factors for high phytochemical yield in turmeric plant.

In vitro growth of Curcuma longa L. in response to five mineral elements and plant density in fed-batch culture systems.

Plant density was varied with P, Ca, Mg, and KNO3 in a multifactor experiment to improve Curcuma longa L. micropropagation, biomass and microrhizome development in fed-batch liquid culture. The experiment had two paired D-optimal designs, testing sucrose fed-batch and nutrient sucrose fed-batch techniques. When sucrose became depleted, volume was restored to 5% m/v sucrose in 200 ml of modified liquid MS medium by adding sucrose solutions. Similarly, nutrient sucrose fed-batch was restored to set points with double concentration of treatments' macronutrient and MS micronutrient solutions, along with sucrose solutions. Changes in the amounts of water and sucrose supplementations were driven by the interaction of P and KNO3 concentrations. Increasing P from 1.25 to 6.25 mM increased both multiplication and biomass. The multiplication ratio was greatest in the nutrient sucrose fed-batch technique with the highest level of P, 6 buds/vessel, and the lowest level of Ca and KNO3. The highest density (18 buds/vessel) produced the highest fresh biomass at the highest concentrations of KNO3 and P with nutrient sucrose fed-batch, and moderate Ca and Mg concentrations. However, maximal rhizome dry biomass required highest P, sucrose fed-batch, and a moderate plant density. Different media formulations and fed-batch techniques were identified to maximize the propagation and storage organ responses. A single experimental design was used to optimize these dual purposes.

Protection of turmeric plants from rhizome rot disease under field conditions by ß-D-glucan nanoparticle.

The rhizome rot caused by Pythium aphanidermatum is one of the most devastating diseases of the turmeric crop. Fungicides are unable to control the rapidly evolving P. aphanidermatum and new control strategies are urgently needed. This study examined the effect of ß-d-glucan nanoparticles (GNP) in turmeric plants under field condition by the foliar spray method. Enhanced plant growth, rhizome yield, and curcumin content demonstrate the positive effect of the GNP on turmeric plants. Rapid activation of various defense enzymes was also observed in leaves and rhizomes of treated plants. GNP-treated plants showed a decreased rot incidence. It may be possible that increased defense enzymes might have played a role in reducing the colonization of pathogen.

Factors affecting the accumulation of curcumin in microrhizomes of Curcuma aromatica Salisb.

Curcuminoids, and mainly curcumin, are potential therapeutic agents for the prevention of various diseases; however, little is known about the factors that influence their accumulation in Curcuma species. In this study, the effects of factors such as sucrose concentration, different ratios of 6-benzylaminopurine (6-BA) and α-naphthalene acetic acid (NAA), and light quality on the accumulation of curcumin and other curcuminoids in Curcuma aromatica were investigated. Microrhizomes grown on media containing 3% sucrose produced more curcumin and other curcuminoids than those grown on higher concentrations. Moreover, when compared to other ratios of 6-BA and NAA, microrhizomes induced on 3% sucrose media supplemented with 3.0 mg/L 6-BA and 0.5 mg/L NAA produced more curcumin and other curcuminoids; however, the amount was less than in microrhizomes grown on 3% sucrose alone. We determined that a 5% sucrose medium supplemented with 3.0 mg/L of 6-BA and 0.5 mg/L of NAA enhanced the levels of curcumin and curcuminoids and that exposure to red light further increased production.

Foliar application of ß-D-glucan nanoparticles to control rhizome rot disease of turmeric.

The soilborne Oomycete Pythium aphanidermatum is the causal agent of rhizome rot disease, one of the most serious threats to turmeric crops. At present, effective fungicides are not available. Researches on nanoparticles in a number of crops have evidenced the positive changes in gene expression indicating their potential use in crop improvement. Hence, experiments were carried out to determine the effect of ß-D-glucan nanoparticles (nanobiopolymer) in protection of turmeric plants against rot disease by the way of products that reinforce plant's own defense mechanism. Foliar spray of ß-D-glucan nanoparticles (0.1%, w/v) elicited marked increase in the activity of defense enzymes such as peroxidases (E.C.1.11.1.7), polyphenol oxidases (E.C.1.14.18.1), protease inhibitors (E.C.3.4.21.1) and ß-1,3-glucanases (E.C.3.2.1.39) at various age levels. Constitutive and induced isoforms of these enzymes were investigated during this time-course study. ß-D-glucan nanoparticles (GNPs) significantly reduced the rot incidence offering 77% protection. Increased activities of defense enzymes in GNPs-applied turmeric plants may play a role in restricting the development of disease symptoms. These results demonstrated that GNPs could be used as an effective resistance activator in turmeric for control of rhizome rot disease.

ß-D-Glucan nanoparticle pre-treatment induce resistance against Pythium aphanidermatum infection in turmeric.

In vitro experiments were carried out to test the efficacy of GNP (ß-D-glucan nanoparticle prepared from mycelium of Pythium aphanidermatum) against rhizome rot disease of turmeric (Curcuma longa L.) caused by P. aphanidermatum. GNP (0.1%, w/v) was applied to rhizome prior to inoculation with P. aphanidermatum (0 h, 24 h). Cell death, activities of defense enzymes such as peroxidase, polyphenol oxidase, protease inhibitor and ß-1,3 glucanase were monitored. Prior application of GNP (24 h) to turmeric rhizome effectively controls P. aphanidermatum infection. The increase in defense enzyme activities occurred more rapidly and was enhanced in P. aphanidermatum infected rhizomes that were pre-treated with GNP. Pre-treatment also induced new isoforms of defense enzymes. Increased activities of defense enzymes suggest that they play a key role in restricting the development of disease symptoms in the rhizomes as evidenced by a reduction in cell death. The results demonstrated that GNP can be used as a potential agent for control of rhizome rot disease.

Acid hydrolysis of Curcuma longa residue for ethanol and lactic acid fermentation.

This research examines the acid hydrolysis of Curcuma longa waste, to obtain the hydrolysate containing lactic acid and ethanol fermentative sugars. A central composite design for describing regression equations of variables was used. The selected optimum condition was 4.91% sulphuric acid, 122.68°C and 50 min using the desirability function under the following conditions: the maximum reducing sugar (RS) yield is within the limited range of the 5-hydroxymethylfurfural (HMF) and furfural concentrations. Under the condition, the obtained solution contained 144 g RS/L, 0.79 g furfural/L and 2.59 g HMF/L and was directly fermented without a detoxification step. The maximum product concentration, average productivity, RS conversion and product yield were 115.36 g/L, 2.88 g/L/h, 89.43% and 64% for L-lactic acid; 113.92 g/L, 2.59 g/L/h, 88.31% and 63.29% for D-lactic acid; and 55.03 g/L, 1.38 g/L/h, 42.66 and 30.57%, respectively, for ethanol using a 7-L jar fermenter.

Inhibition of hydroxycinnamoyl-CoA thioesterases in ginger (Zingiber officinale Rosc.) and turmeric (Curcuma longa L.) by lipase inhibitors.

Ginger (Zingiber officinale Rosc.) and turmeric (Curcuma longa L.), members of the Zingiberaceae, are widely used in traditional Asian cuisines and herbal medicine. Gingerols and diarylheptanoids, important compounds from these plants, appear to be produced by enzymes of the type III polyketide synthase class. Previous efforts to detect activity of such enzymes in tissues from these plants were only marginally successful in turmeric and completely unsuccessful in ginger because of very rapid hydrolysis of the hydroxycinnamoyl-CoA substrates (p-coumaroyl-CoA, feruloyl-CoA and caffeoyl-CoA) in these assays, presumably due to the presence of thioesterases in these tissues. In order to determine whether such thioesterase activities were specific and could be reduced so that the polyketide synthase activities could be better characterized, three inhibitors of the thioesterase domain of fatty acid synthase were tested in assays with leaf and rhizome crude protein extracts from these plants: orlistat, a reduced form of lipstatin, and peptide 1 and peptide 2 from hydrolysates of soybean ß-conglycinin. Results of these analyses indicated that specific thioesterases do exist in these plants and that they could indeed be inhibited, with highest inhibition occurring with a mixture of these three compounds, leading for example to a reduction of caffeoyl-CoA hydrolysis in leaves and rhizomes of ginger by 40-fold and 27-fold, respectively.

Dietary therapy to promote neuroprotection in chronic spinal cord injury.

OBJECT: The pathogenesis of cervical spondylotic myelopathy (CSM) is related to both primary mechanical and secondary biological injury. The authors of this study explored a novel, noninvasive method of promoting neuroprotection in myelopathy by using curcumin to minimize oxidative cellular injury and the capacity of omega-3 fatty acids to support membrane structure and improve neurotransmission. METHODS: An animal model of CSM was created using a nonresorbable expandable polymer placed in the thoracic epidural space, which induced delayed myelopathy. Animals that underwent placement of the expandable polymer were exposed to either a diet rich in docosahexaenoic acid and curcumin (DHA-Cur) or a standard Western diet (WD). Twenty-seven animals underwent serial gait testing, and spinal cord molecular assessments were performed after the 6-week study period. RESULTS: At the conclusion of the study period, gait analysis revealed significantly worse function in the WD group than in the DHA-Cur group. Levels of brain-derived neurotrophic factor (BDNF), syntaxin-3, and 4-hydroxynonenal (4-HNE) were measured in the thoracic region affected by compression and lumbar enlargement. Results showed that BDNF levels in the DHA-Cur group were not significantly different from those in the intact animals but were significantly greater than in the WD group. Significantly higher lumbar enlargement syntaxin-3 in the DHA-Cur animals combined with a reduction in lipid peroxidation (4-HNE) indicated a possible healing effect on the plasma membrane. CONCLUSIONS: Data in this study demonstrated that DHA-Cur can promote spinal cord neuroprotection and neutralize the clinical and biochemical effects of myelopathy.

Micropropagation of a Thai medicinal plant for women's health, Curcuma comosa Roxb., via shoot and microrhizome inductions.

We studied the effects of explant types, plant growth regulators, and sucrose concentrations on shoot and microrhizome inductions of Curcuma comosa Roxb., an important Thai medicinal plant for women's health. Explant types significantly affected shoot induction of the plant. The maximum shoot multiplication rate of 11.82 ± 1.03 shoots/responding explant was obtained when culturing terminal bud explants on semi-solid Murashige and Skoog (MS) medium supplemented with 18.16 µM thidiazuron for 8 weeks. Subsequently, they were transferred to a semi-solid MS medium without plant growth regulators for 4 weeks. The regenerated shoots produced roots spontaneously. Rooted plantlets were successfully transferred to the soil. Microrhizome induction was significantly influenced by sucrose concentrations, but not by 6-benzyladenine (BA). Liquid MS medium with a combination of 17.76 µM BA and 50 g L(-1) sucrose was optimal for microrhizome induction of C. comosa. After 12 weeks of culture, the microrhizome induction rate was 3.36 ± 0.44 microrhizomes/responding explant. Starch accumulation in microrhizomes increased with higher sugar concentration and with longer duration of culture. The microrhizomes were allowed to germinate under greenhouse conditions and further developed into normal plants. The protocols established will be used for the production of uniform plantlets suitable for field plantation for the herbal industry.