Your search keyword '"Elizabeth H. Jeffery"' showing total 175 results

1. Editorial: Glucosinolate Metabolites: Bioavailability, Bioactivity and Clinical Variability

Author

Donato Angelino and Elizabeth H. Jeffery

Subjects

glucosinolate, isothiocyanate, bioavailability, bioactivity, gut microbiota, Nutrition. Foods and food supply, TX341-641

Published

2021

2. BMI Is Associated With Increased Plasma and Urine Appearance of Glucosinolate Metabolites After Consumption of Cooked Broccoli

Author

Craig S. Charron, Bryan T. Vinyard, Elizabeth H. Jeffery, Sharon A. Ross, Harold E. Seifried, and Janet A. Novotny

Subjects

broccoli, glucosinolates, isothiocyanates, BMI, bioavailability, Nutrition. Foods and food supply, TX341-641

Abstract

Introduction: Preclinical studies suggest that brassica vegetable diets decrease cancer risk, but epidemiological studies show varied effects, resulting in uncertainty about any health impact of brassicas. Factors controlling absorption of glucosinolate metabolites may relate to inconsistent results. We reported previously that subjects with BMI > 26 kg/m2 (HiBMI), given cooked broccoli plus raw daikon radish (as a source of plant myrosinase) daily for 17 days, had lower glucosinolate metabolite absorption than subjects given a single broccoli meal. This difference was not seen in subjects with BMI < 26 kg/m2 (LoBMI). Our objective in this current study was to determine whether a similar response occurred when cooked broccoli was consumed without a source of plant myrosinase.Methods: In a randomized crossover study (n = 18), subjects consumed no broccoli for 16 days or the same diet with 200 g of cooked broccoli daily for 15 days and 100 g of broccoli on day 16. On day 17, all subjects consumed 200 g of cooked broccoli. Plasma and urine were collected for 24 h and analyzed for glucosinolate metabolites by LC-MS.Results: There was no effect of diet alone or interaction of diet with BMI. However, absorption doubled in HiBMI subjects (AUC 219%, plasma mass of metabolites 202% compared to values for LoBMI subjects) and time to peak plasma metabolite values and 24-h urinary metabolites also increased, to 127 and 177% of LoBMI values, respectively.Conclusion: BMI impacts absorption and metabolism of glucosinolates from cooked broccoli, and this association must be further elucidated for more efficacious dietary recommendations.Clinical Trial Registration: This trial was registered at clinicaltrials.gov (NCT03013465).

Published

2020

3. Consumption of baby kale increased cytochrome P450 1A2 (CYP1A2) activity and influenced bilirubin metabolism in a randomized clinical trial

Author

Craig S. Charron, Janet A. Novotny, Elizabeth H. Jeffery, Matthew Kramer, Sharon A. Ross, and Harold E. Seifried

Subjects

Kale, CYP1A2, Sinigrin, Glucobrassicin, Glucosinolate, Isothiocyanate, Nutrition. Foods and food supply, TX341-641

Abstract

Brassica vegetables may modulate cancer risk by regulation of xenobiotic metabolizing enzymes (XMEs). In a randomized crossover study, the effect of kale consumption on CYP1A2, CYP2A6, XO, and NAT2 activity was determined by urinary caffeine metabolite ratios, UGT1A1 activity by serum bilirubin concentrations, and GSTA protein and GST activity in blood by ELISA. Adults (n = 25) consumed a basal diet supplemented with kale and radish for 14 days or control vegetables. The kale diet increased CYP1A2 activity by 16.4% on day 8 and 15.2% on day 15 compared to control. Conjugated bilirubin was reduced by the kale diet, decreasing from 19.4 to 14.3 to 9.5% of total bilirubin on days 1, 8, and 15, respectively, which may be explained by induction of MRP2. Other XMEs were not affected by diet. The implications of these results for cancer risk will be clarified as the functions of these XMEs become better understood.

Published

2020

4. Dietary broccoli protects against fatty liver development but not against progression of liver cancer in mice pretreated with diethylnitrosamine

Author

Yung-Ju Chen, Angela D. Myracle, Matthew A. Wallig, and Elizabeth H. Jeffery

Subjects

Fatty liver disease, Liver cancer, Western diet, Broccoli, Diethylnitrosamine, Nutrition. Foods and food supply, TX341-641

Abstract

Western-style high fat, high sugar diets are associated with non-alcoholic fatty liver disease (NAFLD) and increased liver cancer risk. Sulforaphane from broccoli may protect against these. Previously we initiated broccoli feeding to mice prior to exposure to the hepatocarcinogen diethylnitrosamine (DEN), and saw protection against NAFLD and liver cancer. Here we administered DEN to unweaned mice, initiating broccoli feeding two weeks later, to determine if broccoli protects against cancer progression. Specifically, male 15-day-old C57BL/6J mice were given DEN and placed on a Western or Western + 10%Broccoli diet from the age of 4 weeks through 7 months. Dietary broccoli decreased hepatic triacylglycerols, NAFLD, liver damage and tumour necrosis factor by month 5 without changing body weight or relative liver weight, but did not slow carcinogenesis, seen in 100% of mice. We conclude that broccoli, a good source of sulforaphane, slows progression of hepatic lipidosis, but not tumourigenesis in this robust model.

Published

2016

5. Commercially produced frozen broccoli lacks the ability to form sulforaphane

Author

Edward B. Dosz and Elizabeth H. Jeffery

Subjects

Sulforaphane, Myrosinase, Broccoli, Blanching, Freezing, Microwave, Nutrition. Foods and food supply, TX341-641

Abstract

Sulforaphane is produced from the hydrolysis of the glucosinolate glucoraphanin in the presence of the endogenous enzyme myrosinase. Sulforaphane has been shown to provide cancer prevention through a number of mechanisms including the upregulation of detoxification enzymes and epigenetic changes. Optimal temperature and pH for sulforaphane formation from broccoli was determined. Sulforaphane formation was measured in three commercially frozen broccoli samples pre- and post-cooking. The results show that in these products, there was very little potential to form sulforaphane prior to cooking and essentially none after the recommended cooking method was performed. Research is needed towards improved processing methods.

Published

2013

6. BMI Is Associated With Increased Plasma and Urine Appearance of Glucosinolate Metabolites After Consumption of Cooked Broccoli

Author

Harold E. Seifried, Janet A. Novotny, Craig S. Charron, Sharon A. Ross, Elizabeth H. Jeffery, and Bryan T. Vinyard

Subjects

0301 basic medicine, isothiocyanates, Endocrinology, Diabetes and Metabolism, Metabolite, Brassica, 030209 endocrinology & metabolism, lcsh:TX341-641, Urine, 03 medical and health sciences, chemistry.chemical_compound, BMI, 0302 clinical medicine, Medicine, Food science, glucosinolates, Nutrition, broccoli, Meal, 030109 nutrition & dietetics, Nutrition and Dietetics, biology, Myrosinase, business.industry, food and beverages, biology.organism_classification, Crossover study, Clinical Trial, Bioavailability, chemistry, Glucosinolate, business, bioavailability, lcsh:Nutrition. Foods and food supply, Food Science

Abstract

Introduction: Preclinical studies suggest that brassica vegetable diets decrease cancer risk, but epidemiological studies show varied effects, resulting in uncertainty about any health impact of brassicas. Factors controlling absorption of glucosinolate metabolites may relate to inconsistent results. We reported previously that subjects with BMI > 26 kg/m2 (HiBMI), given cooked broccoli plus raw daikon radish (as a source of plant myrosinase) daily for 17 days, had lower glucosinolate metabolite absorption than subjects given a single broccoli meal. This difference was not seen in subjects with BMI < 26 kg/m2 (LoBMI). Our objective in this current study was to determine whether a similar response occurred when cooked broccoli was consumed without a source of plant myrosinase.Methods: In a randomized crossover study (n = 18), subjects consumed no broccoli for 16 days or the same diet with 200 g of cooked broccoli daily for 15 days and 100 g of broccoli on day 16. On day 17, all subjects consumed 200 g of cooked broccoli. Plasma and urine were collected for 24 h and analyzed for glucosinolate metabolites by LC-MS.Results: There was no effect of diet alone or interaction of diet with BMI. However, absorption doubled in HiBMI subjects (AUC 219%, plasma mass of metabolites 202% compared to values for LoBMI subjects) and time to peak plasma metabolite values and 24-h urinary metabolites also increased, to 127 and 177% of LoBMI values, respectively.Conclusion: BMI impacts absorption and metabolism of glucosinolates from cooked broccoli, and this association must be further elucidated for more efficacious dietary recommendations.Clinical Trial Registration: This trial was registered at clinicaltrials.gov (NCT03013465).

Published

2020

7. Biomarkers of Broccoli Consumption: Implications for Glutathione Metabolism and Liver Health

Author

Xiaoji Liu, Michael J. Miller, Elizabeth H. Jeffery, Yanling Wang, Zeynep Madak-Erdogan, and Alicia Arredondo Eve

Subjects

0301 basic medicine, medicine.medical_specialty, NF-E2-Related Factor 2, Metabolite, Population, Brassica, lcsh:TX341-641, Gut flora, liver, Article, 03 medical and health sciences, Liver disease, chemistry.chemical_compound, Eating, Metabolomics, Metabolic Diseases, Internal medicine, medicine, NAD(P)H Dehydrogenase (Quinone), Animals, education, Fatty acid synthesis, broccoli, education.field_of_study, 030109 nutrition & dietetics, Nutrition and Dietetics, biology, Fatty Acids, food and beverages, biology.organism_classification, medicine.disease, Glutathione, Rats, Inbred F344, Gastrointestinal Microbiome, Glutamine, 030104 developmental biology, Endocrinology, chemistry, Metabolome, Animal Nutritional Physiological Phenomena, lcsh:Nutrition. Foods and food supply, metabolic circulating markers, Food Science

Abstract

Diet and lifestyle choices contribute to obesity and liver disease. Broccoli, a brassica vegetable, may mitigate negative effects of both diet and lifestyle. Currently, there are no clinically relevant, established molecular biomarkers that reflect variability in human absorption of brassica bioactives, which may be the cause of variability/inconsistencies in health benefits in the human population. Here, we focused on the plasma metabolite profile and composition of the gut microbiome in rats, a relatively homogenous population in terms of gut microbiota, genetics, sex and diet, to determine if changes in the plasma metabolite profiles caused by dietary broccoli relate to molecular changes in liver. Our aim was to identify plasma indicators that reflect how liver health is impacted by dietary broccoli. Rats were fed a 10% broccoli diet for 14 days. We examined the plasma metabolite composition by metabolomics analysis using GC&ndash, MS and gut microbiota using 16S sequencing after 0, 1, 2, 4, 7, 14 days of broccoli feeding. We identified 25 plasma metabolites that changed with broccoli consumption, including metabolites associated with hepatic glutathione synthesis, and with de novo fatty acid synthesis. Glutamine, stearic acid, and S-methyl-L-cysteine (SMC) relative abundance changes correlated with changes in gut bacteria previously implicated in metabolic disease and with validated increases in expression of hepatic NAD(P)H dehydrogenase [quinone] 1 (NQO1) and nuclear factor (erythroid-derived 2)-like 2 (Nrf2), associated with elevated hepatic glutathione synthesis. Circulating biomarkers following broccoli consumption reflect gut&ndash, liver axis health.

Published

2020

8. Broccoli consumption affects the human gastrointestinal microbiota

Author

Hannah D. Holscher, Sharon A. Ross, Kelly S. Swanson, Xiaoji Liu, Harold E. Seifried, Jennifer L Kaczmarek, Elizabeth H. Jeffery, Michael J. Miller, Craig S. Charron, and Janet A. Novotny

Subjects

Adult, Male, 0301 basic medicine, Firmicutes, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Brassica, Biochemistry, Article, Body Mass Index, Feces, 03 medical and health sciences, chemistry.chemical_compound, Humans, Microbiome, Food science, Molecular Biology, Aged, 030109 nutrition & dietetics, Nutrition and Dietetics, biology, Bacteroidetes, Cruciferous vegetables, food and beverages, Middle Aged, biology.organism_classification, Crossover study, Gastrointestinal Microbiome, 030104 developmental biology, chemistry, Glucosinolate, Female, Bacteroides, Body mass index

Abstract

The human gastrointestinal microbiota is increasingly linked to health outcomes; however, our understanding of how specific foods alter the microbiota is limited. Cruciferous vegetables such as broccoli are a good source of dietary fiber and phytonutrients, including glucosinolates, which can be metabolized by gastrointestinal microbes. This study aimed to determine the impact of broccoli consumption on the gastrointestinal microbiota of healthy adults. A controlled feeding, randomized, crossover study consisting of two 18-day treatment periods separated by a 24-day washout was conducted in healthy adults (n=18). Participants were fed at weight maintenance with the intervention period diet including 200 g of cooked broccoli and 20 g of raw daikon radish per day. Fecal samples were collected at baseline and at the end of each treatment period for microbial analysis. Beta diversity analysis indicated that bacterial communities were impacted by treatment (P=0.03). Broccoli consumption decreased the relative abundance of Firmicutes by 9% compared to controls (P=0.05), increased the relative abundance of Bacteroidetes by 10% compared to controls (P=0.03), and increased Bacteroides by 8% relative to controls (P=0.02). Furthermore, the effects were strongest among participants with BMI < 26 kg/m(2), and within this group there were associations between bacterial relative abundance and glucosinolate metabolites. Functional prediction revealed that broccoli consumption increased the pathways involved in the functions of the endocrine system (P=0.05), transport and catabolism (P=0.04), and energy metabolism (P=0.01). These results reveal that broccoli consumption affects the composition and function of the human gastrointestinal microbiota.

Published

2019

9. Is Bitterness Only a Taste? The Expanding Area of Health Benefits of Brassica Vegetables and Potential for Bitter Taste Receptors to Support Health Benefits

Author

Anqi Zhao, Elizabeth H. Jeffery, and Michael J. Miller

Subjects

Nutrition and Dietetics, Taste, Glucosinolates, Vegetables, Animals, food and beverages, Brassica, Diet, Food Science

Abstract

The list of known health benefits from inclusion of brassica vegetables in the diet is long and growing. Once limited to cancer prevention, a role for brassica in prevention of oxidative stress and anti-inflammation has aided in our understanding that brassica provide far broader benefits. These include prevention and treatment of chronic diseases of aging such as diabetes, neurological deterioration, and heart disease. Although animal and cell culture studies are consistent, clinical studies often show too great a variation to confirm these benefits in humans. In this review, we discuss causes of variation in clinical studies, focusing on the impact of the wide variation across humans in commensal bacterial composition, which potentially result in variations in microbial metabolism of glucosinolates. In addition, as research into host–microbiome interactions develops, a role for bitter-tasting receptors, termed T2Rs, in the gastrointestinal tract and their role in entero-endocrine hormone regulation is developing. Here, we summarize the growing literature on mechanisms of health benefits by brassica-derived isothiocyanates and the potential for extra-oral T2Rs as a novel mechanism that may in part describe the variability in response to brassica among free-living humans, not seen in research animal and cell culture studies.

Published

2022

10. Absorption and metabolism of isothiocyanates formed from broccoli glucosinolates: effects of BMI and daily consumption in a randomised clinical trial

Author

Janet A. Novotny, Sharon A. Ross, Bryan T. Vinyard, Elizabeth H. Jeffery, Harold E. Seifried, and Craig S. Charron

Subjects

Adult, Male, 0301 basic medicine, Genotype, Glycoside Hydrolases, Glucosinolates, Medicine (miscellaneous), Brassica, Absorption (skin), Urine, Sulfides, Body Mass Index, Raphanus, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Isothiocyanates, Tandem Mass Spectrometry, Imidoesters, Oximes, Anticarcinogenic Agents, Humans, Mannitol, Cooking, Food science, Aged, Glutathione Transferase, Glucoraphanin, Meal, Cross-Over Studies, Nutrition and Dietetics, food and beverages, Sulphoraphane, Glutathione, Metabolism, Middle Aged, Acetylcysteine, Diet, Glucose, 030104 developmental biology, chemistry, Area Under Curve, Sulfoxides, 030220 oncology & carcinogenesis, Female, Thiocyanates, Sulforaphane

Abstract

Sulphoraphane originates from glucoraphanin in broccoli and is associated with anti-cancer effects. A preclinical study suggested that daily consumption of broccoli may increase the production of sulphoraphane and sulphoraphane metabolites available for absorption. The objective of this study was to determine whether daily broccoli consumption alters the absorption and metabolism of isothiocyanates derived from broccoli glucosinolates. We conducted a randomised cross-over human study (n18) balanced for BMI and glutathioneS-transferaseμ1 (GSTM1) genotype in which subjects consumed a control diet with no broccoli (NB) for 16 d or the same diet with 200 g of cooked broccoli and 20 g of raw daikon radish daily for 15 d (daily broccoli, DB) and 100 g of broccoli and 10 g of daikon radish on day 16. On day 17, all subjects consumed a meal of 200 g of broccoli and 20 g of daikon radish. Plasma and urine were collected for 24 h and analysed for sulphoraphane and metabolites of sulphoraphane and erucin by triple quadrupole tandem MS. For subjects with BMI >26 kg/m2(median), plasma AUC and urinary excretion rates of total metabolites were higher on the NB diet than on the DB diet, whereas for subjects with BMI 2, plasma AUC and urinary excretion rates were higher on the DB diet than on the NB diet. Daily consumption of broccoli interacted with BMI but notGSTM1genotype to affect plasma concentrations and urinary excretion of glucosinolate-derived compounds believed to confer protection against cancer. This trial was registered as NCT02346812.

Published

2018

11. Consumption of baby kale increased cytochrome P450 1A2 (CYP1A2) activity and influenced bilirubin metabolism in a randomized clinical trial

Author

Elizabeth H. Jeffery, Harold E. Seifried, Sharon A. Ross, Matthew Kramer, Janet A. Novotny, and Craig S. Charron

Subjects

0301 basic medicine, medicine.medical_specialty, Bilirubin, Sinigrin, Metabolite, CYP1A2, Medicine (miscellaneous), Kale, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Isothiocyanate, Internal medicine, medicine, TX341-641, CYP2A6, 030109 nutrition & dietetics, Nutrition and Dietetics, business.industry, Nutrition. Foods and food supply, Glucosinolate, 04 agricultural and veterinary sciences, Metabolism, 040401 food science, Crossover study, Glucobrassicin, Endocrinology, chemistry, business, Caffeine, Food Science

Abstract

Brassica vegetables may modulate cancer risk by regulation of xenobiotic metabolizing enzymes (XMEs). In a randomized crossover study, the effect of kale consumption on CYP1A2, CYP2A6, XO, and NAT2 activity was determined by urinary caffeine metabolite ratios, UGT1A1 activity by serum bilirubin concentrations, and GSTA protein and GST activity in blood by ELISA. Adults (n = 25) consumed a basal diet supplemented with kale and radish for 14 days or control vegetables. The kale diet increased CYP1A2 activity by 16.4% on day 8 and 15.2% on day 15 compared to control. Conjugated bilirubin was reduced by the kale diet, decreasing from 19.4 to 14.3 to 9.5% of total bilirubin on days 1, 8, and 15, respectively, which may be explained by induction of MRP2. Other XMEs were not affected by diet. The implications of these results for cancer risk will be clarified as the functions of these XMEs become better understood.

Published

2020

12. A comparison of the absorption and metabolism of the major quercetin in brassica, quercetin-3-O-sophoroside, to that of quercetin aglycone, in rats

Author

Molly Black, Elizabeth H. Jeffery, Mark A. Berhow, and Yanling Wang

Subjects

Male, Flavonoid, ved/biology.organism_classification_rank.species, Brassica, Phenylacetic acid, 01 natural sciences, Mass Spectrometry, Analytical Chemistry, chemistry.chemical_compound, 0404 agricultural biotechnology, Animals, heterocyclic compounds, Apocynum venetum, Cecum, Chromatography, High Pressure Liquid, chemistry.chemical_classification, Flavonoids, ved/biology, Microbiota, 010401 analytical chemistry, Glycoside, Glycosidic bond, 04 agricultural and veterinary sciences, General Medicine, Metabolism, 040401 food science, Rats, Inbred F344, 0104 chemical sciences, Rats, Aglycone, chemistry, Biochemistry, Quercetin, Food Science

Abstract

Although flavonoid sophorosides are common glycosides in brassica vegetables, red raspberries and other food plants, there is a lack of studies of absorption and metabolism of any sophoroside. The aim of this study was to characterize the absorption, phase II metabolism and microbial catabolism of quercetin-3-O-sophoroside, compared to that of quercetin aglycone. Quercetin-3-O-sophoroside was purified from Apocynum venetum and characterized by MS2, 1H and 13C NMR. Using an in situ rat gut model, we found intact, methylated, sulfated and both methylated and sulfated quercetin sophoroside in the plasma following jejunal introduction of the sophoroside; we found derivatives of benzoic acid, phenylacetic acid, and phenyl propionic acid in the cecal contents following cecal introduction. This novel finding, that quercetin sophoroside was absorbed intact, without deglycosylation, points to a possible role for the terminal sugar and/or the type of linkage among glycosidic moieties in the mechanism of absorption of flavonoid glycosides.

Published

2019

13. Nasal Tumorigenesis in B6C3F1 Mice Following Intraperitoneal Diethylnitrosamine

Author

Elizabeth H. Jeffery, Yung Ju Chen, and Matthew A. Wallig

Subjects

Male, 0301 basic medicine, endocrine system, Pathology, medicine.medical_specialty, Diethylamines, Carcinogenesis, 040301 veterinary sciences, viruses, Nose Neoplasms, Mice, Inbred Strains, Toxicology, medicine.disease_cause, digestive system, Nose neoplasm, Article, Pathology and Forensic Medicine, 0403 veterinary science, Mice, 03 medical and health sciences, Pulmonary neoplasms, Western diet, medicine, Animals, Molecular Biology, Carcinogen, business.industry, Liver Neoplasms, 04 agricultural and veterinary sciences, Cell Biology, respiratory system, medicine.disease, 030104 developmental biology, Dietary treatment, Young adult male, Carcinogens, business, Liver cancer

Abstract

Diethylnitrosamine (DEN) is a chemical broadly used in animal models as a hepatocarcinogen, reported to also cause pulmonary neoplasms in mice. The original objective was to evaluate the impact of a Western diet with or without 10% broccoli on DEN-induced on liver cancer. We administered DEN (45 mg/kg) intraperitoneally to young adult male B6C3F1 mice by 6 weekly injections and evaluated liver cancer 6 months after the DEN treatments. Here, we report unexpected primary tumorigenesis in nasal epithelium, independent of dietary treatment. More than 50% of DEN-treated B6C3F1 mice developed nasal neoplasm-related lesions, not reported previously in the literature. Only one of these neoplasms was visible externally prior to postmortem examination. Intraperitoneal DEN treatment used as a model for liver cancer can have a carcinogenic effect on the nasal epithelium in B6C3F1 mice, which should be carefully monitored in future liver cancer studies.

Published

2016

14. Dietary broccoli protects against fatty liver development but not against progression of liver cancer in mice pretreated with diethylnitrosamine

Author

Angela D. Myracle, Yung Ju Chen, Elizabeth H. Jeffery, and Matthew A. Wallig

Subjects

0301 basic medicine, medicine.medical_specialty, Necrosis, Medicine (miscellaneous), Biology, medicine.disease_cause, digestive system, Liver weight, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Fatty liver disease, Internal medicine, medicine, Diethylnitrosamine, TX341-641, Western diet, Nutrition and Dietetics, Nutrition. Foods and food supply, Broccoli, Fatty liver, food and beverages, Cancer, medicine.disease, digestive system diseases, 030104 developmental biology, Endocrinology, chemistry, 030220 oncology & carcinogenesis, Tumor necrosis factor alpha, medicine.symptom, Liver cancer, Carcinogenesis, Food Science, Sulforaphane

Abstract

Western-style high fat, high sugar diets are associated with non-alcoholic fatty liver disease (NAFLD) and increased liver cancer risk. Sulforaphane from broccoli may protect against these. Previously we initiated broccoli feeding to mice prior to exposure to the hepatocarcinogen diethylnitrosamine (DEN), and saw protection against NAFLD and liver cancer. Here we administered DEN to unweaned mice, initiating broccoli feeding two weeks later, to determine if broccoli protects against cancer progression. Specifically, male 15-day-old C57BL/6J mice were given DEN and placed on a Western or Western + 10%Broccoli diet from the age of 4 weeks through 7 months. Dietary broccoli decreased hepatic triacylglycerols, NAFLD, liver damage and tumour necrosis factor by month 5 without changing body weight or relative liver weight, but did not slow carcinogenesis, seen in 100% of mice. We conclude that broccoli, a good source of sulforaphane, slows progression of hepatic lipidosis, but not tumourigenesis in this robust model.

Published

2016

15. Dietary Broccoli Lessens Development of Fatty Liver and Liver Cancer in Mice Given Diethylnitrosamine and Fed a Western or Control Diet

Author

Matthew A. Wallig, Elizabeth H. Jeffery, and Yung Ju Chen

Subjects

0301 basic medicine, medicine.medical_specialty, CD36, Brassica, Medicine (miscellaneous), Gastroenterology, Microsomal triglyceride transfer protein, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Nonalcoholic fatty liver disease, Medicine, Nutrition and Dietetics, biology, business.industry, Fatty liver, food and beverages, medicine.disease, biology.organism_classification, 030104 developmental biology, Endocrinology, Alanine transaminase, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, biology.protein, business, Liver cancer

Abstract

Background: The high-fat and high-sugar Westernized diet that is popular worldwide is associated with increased body fat accumulation, which has been related to the development of nonalcoholic fatty liver disease (NAFLD). Without treatment, NAFLD may progress to hepatocellular carcinoma (HCC), a cancer with a high mortality rate. The consumption of broccoli in the United States has greatly increased in the last 2 decades. Epidemiologic studies show that incorporating brassica vegetables into the daily diet lowers the risk of several cancers, although, to our knowledge, this is the first study to evaluate HCC prevention through dietary broccoli. Objective: We aimed to determine the impact of dietary broccoli on hepatic lipid metabolism and the progression of NAFLD to HCC. Our hypothesis was that broccoli decreases both hepatic lipidosis and the development of HCC in a mouse model of Western diet–enhanced liver cancer. Methods: Adult 5-wk-old male B6C3F1 mice received a control diet (AIN-93M) or a Western diet (high in lard and sucrose, 19% and 31%, wt:wt, respectively), with or without freeze-dried broccoli (10%, wt:wt). Starting the following week, mice were treated once per week with diethylnitrosamine (DEN; 45 mg/kg body weight intraperitoneally at ages 6, 7, 8, 10, 11, and 12 wk). Hepatic gene expression, lipidosis, and tumor outcomes were analyzed 6 mo later, when mice were 9 mo old. Results: Mice receiving broccoli exhibited lower hepatic triglycerides (P < 0.001) and NAFLD scores (P < 0.0001), decreased plasma alanine aminotransferase (P < 0.0001), suppressed activation of hepatic CD68+ macrophages (P < 0.0001), and slowed initiation and progression of hepatic neoplasm. Hepatic Cd36 was downregulated by broccoli feeding (P = 0.006), whereas microsomal triglyceride transfer protein was upregulated (P = 0.045), supporting the finding that dietary broccoli decreased hepatic triglycerides. Conclusion: Long-term consumption of whole broccoli countered both NAFLD development enhanced by a Western diet and hepatic tumorigenesis induced by DEN in male B6C3F1 mice.

Published

2016

16. Lightly Cooked Broccoli Is as Effective as Raw Broccoli in Mitigating Dextran Sulfate Sodium-Induced Colitis in Mice

Author

Elizabeth H. Jeffery, Yanling Wang, Michael J. Miller, Matthew A. Wallig, and Yuanfeng Wu

Subjects

0301 basic medicine, Male, Protein Denaturation, Hot Temperature, Lipopolysaccharide, IL-6 trans-signaling pathway, lightly cooked broccoli, chemistry.chemical_compound, 0302 clinical medicine, Isothiocyanates, Enzyme Stability, Food science, Cooking, Dextran Sulfate Sodium, Nutrition and Dietetics, Cell adhesion molecule, Hydrolysis, Dextran Sulfate, food and beverages, Colitis, Bioactive compound, 030220 oncology & carcinogenesis, Sulfoxides, lcsh:Nutrition. Foods and food supply, Signal Transduction, medicine.medical_specialty, Glycoside Hydrolases, Colon, NF-E2-Related Factor 2, Receptors, CCR2, Vascular Cell Adhesion Molecule-1, lcsh:TX341-641, Brassica, Article, Permeability, 03 medical and health sciences, medicine, Animals, gut barrier, Myrosinase, Interleukin-6, medicine.disease, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, chemistry, dextran sulfate sodium, Histopathology, Food Science, Sulforaphane

Abstract

Dietary broccoli is anti-inflammatory. Past studies have typically investigated raw broccoli, even though most consumers prefer cooked broccoli, where the plant myrosinase is inactivated by heat, resulting in failure of formation of the anti-inflammatory bioactive compound sulforaphane (SF). This study compareed efficacy of lightly cooked broccoli (CB) containing greatly diminished myrosinase activity, with raw broccoli (RB), in mitigating colitis in dextran sulfate sodium (DSS)-treated mice. Male C57BL/6 mice were fed for two weeks on a 10% RB, 10% CB or control diet, all based on the AIN-93M diet. Half (n = 9) of each group received drinking water, half received 2.5% DSS in water for one week, starting from Day 7 of the diet. Even with far less plant myrosinase activity, CB was essentially as effective as RB in lessening damage by DSS, evidenced by decreased disease activity index, attenuated colon length shrinkage, less endotoxin (lipopolysaccharide) leakage into blood, and less severe colon lesions as assessed by histopathology. mRNA expression of pro-inflammatory cytokines indicated that broccoli anti-inflammatory action may be through inhibition of the IL-6 trans-signaling pathway, as evidenced by reversal of the DSS-increased expression of IL-6, CCR2 and vascular cell adhesion molecule 1 (VCAM-1).

Published

2018

17. Cancer prevention withBrassicavegetables

Author

Elizabeth H Jeffery

Subjects

Indole test, chemistry.chemical_compound, Cancer prevention, chemistry, Isothiocyanate, medicine, Cancer research, Inflammation, Horticulture, medicine.symptom, Biology, Sulforaphane

Published

2015

18. Genetic analysis of glucosinolate variability in broccoli florets using genome-anchored single nucleotide polymorphisms

Author

Kranthi K. Chebrolu, Christopher Krueger, Robert W. Reid, Gad G. Yousef, Eric W. Jackson, Elizabeth H. Jeffery, Allan Brown, John A. Juvik, and Aswathy Thomas

Subjects

Genetic Markers, DNA, Plant, Genetic Linkage, Glucosinolates, Quantitative Trait Loci, Population, Brassica, Flowers, Quantitative trait locus, Polymorphism, Single Nucleotide, Chromosomes, Plant, chemistry.chemical_compound, Vegetables, Botany, Genetics, education, education.field_of_study, biology, Chromosome Mapping, food and beverages, Brassicaceae, General Medicine, biology.organism_classification, Phenotype, chemistry, Sinigrin, Genetic marker, Glucosinolate, Brassica oleracea, lipids (amino acids, peptides, and proteins), Agronomy and Crop Science, Biotechnology

Abstract

The identification of genetic factors influencing the accumulation of individual glucosinolates in broccoli florets provides novel insight into the regulation of glucosinolate levels in Brassica vegetables and will accelerate the development of vegetables with glucosinolate profiles tailored to promote human health. Quantitative trait loci analysis of glucosinolate (GSL) variability was conducted with a B. oleracea (broccoli) mapping population, saturated with single nucleotide polymorphism markers from a high-density array designed for rapeseed (Brassica napus). In 4 years of analysis, 14 QTLs were associated with the accumulation of aliphatic, indolic, or aromatic GSLs in floret tissue. The accumulation of 3-carbon aliphatic GSLs (2-propenyl and 3-methylsulfinylpropyl) was primarily associated with a single QTL on C05, but common regulation of 4-carbon aliphatic GSLs was not observed. A single locus on C09, associated with up to 40 % of the phenotypic variability of 2-hydroxy-3-butenyl GSL over multiple years, was not associated with the variability of precursor compounds. Similarly, QTLs on C02, C04, and C09 were associated with 4-methylsulfinylbutyl GSL concentration over multiple years but were not significantly associated with downstream compounds. Genome-specific SNP markers were used to identify candidate genes that co-localized to marker intervals and previously sequenced Brassica oleracea BAC clones containing known GSL genes (GSL-ALK, GSL-PRO, and GSL-ELONG) were aligned to the genomic sequence, providing support that at least three of our 14 QTLs likely correspond to previously identified GSL loci. The results demonstrate that previously identified loci do not fully explain GSL variation in broccoli. The identification of additional genetic factors influencing the accumulation of GSL in broccoli florets provides novel insight into the regulation of GSL levels in Brassicaceae and will accelerate development of vegetables with modified or enhanced GSL profiles.

Published

2015

19. Correlation of Quinone Reductase Activity and Allyl Isothiocyanate Formation Among Different Genotypes and Grades of Horseradish Roots

Author

Elizabeth H. Jeffery, Mosbah M. Kushad, Kang-Mo Ku, and John A. Juvik

Subjects

Pungency, Phenethyl isothiocyanate, Genotype, Glucosinolates, General Chemistry, Reductase, Allyl isothiocyanate, Plant Roots, Armoracia, Gluconasturtiin, chemistry.chemical_compound, Sinigrin, chemistry, Phytochemical, Isothiocyanates, Glucosinolate, Botany, Food science, Quinone Reductases, General Agricultural and Biological Sciences, Plant Proteins

Abstract

Horseradish (Armoracia rusticana) is a perennial crop and its ground root tissue is used in condiments because of the pungency of the glucosinolate (GS)-hydrolysis products allyl isothiocyanate (AITC) and phenethyl isothiocyanate (PEITC) derived from sinigrin and gluconasturtiin, respectively. Horseradish roots are sold in three grades: U.S. Fancy, U.S. No. 1, and U.S. No. 2 according to the USDA standards. These grading standards are primarily based on root diameter and length. There is little information on whether root grades vary in their phytochemical content or potential health promoting properties. This study measured GS, GS-hydrolysis products, potential anticancer activity (as quinone reductase inducing activity), total phenolic content, and antioxidant activities from different grades of horseradish accessions. U.S. Fancy showed significantly higher sinigrin and AITC concentrations than U.S. No. 1 ,whereas U.S. No. 1 showed significantly higher concentrations of 1-cyano 2,3-epithiopropane, the epithionitrile hydrolysis product of sinigrin, and significantly higher total phenolic concentrations than U.S. Fancy.

Published

2015

20. Absorption and Metabolism of Isothiocyanates Formed from Broccoli Glucosinolates: Effects of Daily Consumption

Author

Bryan T. Vinyard, Sharon A. Ross, Harold E. Seifried, Elizabeth H. Jeffery, Craig S. Charron, and Janet A. Novotny

Subjects

Chemistry, Genetics, Metabolism, Photochemistry, Absorption (electromagnetic radiation), Molecular Biology, Biochemistry, Biotechnology

Published

2017

21. Broccoli Consumption Impacts the Human Gastrointestinal Microbiota

Author

Hannah D Holscher, Craig S. Charron, Harold E. Seifried, Sharon A. Ross, Janet A. Novotny, Jennifer L Kaczmarek, Kelly S. Swanson, and Elizabeth H. Jeffery

Subjects

0301 basic medicine, Consumption (economics), 030109 nutrition & dietetics, business.industry, Gastrointestinal microbiota, Health outcomes, digestive system, Biochemistry, stomatognathic diseases, 03 medical and health sciences, fluids and secretions, Environmental health, Genetics, Medicine, business, Molecular Biology, Biotechnology

Abstract

BackgroundThe human gastrointestinal (GI) microbiota is increasingly linked to health outcomes; however, our understanding of how specific foods alter the microbiota is limited. Cruciferous vegetab...

Published

2017

22. Dietary Broccoli Alters Rat Cecal Microbiota to Improve Glucoraphanin Hydrolysis to Bioactive Isothiocyanates

Author

Michael J. Miller, Jennifer L. Hoeflinger, Bárbara P Neme, Xiaoji Liu, Elizabeth H. Jeffery, and Yanling Wang

Subjects

0301 basic medicine, Colon, isothiocyanate, gut microbiome, rat, broccoli, glucoraphanin, Glucosinolates, lcsh:TX341-641, Brassica, Biology, Health benefits, Colon mucosa, Article, 03 medical and health sciences, chemistry.chemical_compound, Hydrolysis, Isothiocyanates, RNA, Ribosomal, 16S, Imidoesters, Oximes, NAD(P)H Dehydrogenase (Quinone), Animals, Food science, Cooking, Intestinal Mucosa, Cecum, Glucoraphanin, 030109 nutrition & dietetics, Nutrition and Dietetics, Base Sequence, food and beverages, Rats, Inbred F344, Gastrointestinal Microbiome, Rats, 030104 developmental biology, chemistry, Biochemistry, Sulfoxides, Isothiocyanate, NAD+ kinase, lcsh:Nutrition. Foods and food supply, Microbiota composition, Ex vivo, hormones, hormone substitutes, and hormone antagonists, Food Science

Abstract

Broccoli consumption brings many health benefits, including reducing the risk of cancer and inflammatory diseases. The objectives of this study were to identify global alterations in the cecal microbiota composition using 16S rRNA sequencing analysis and glucoraphanin (GRP) hydrolysis to isothiocyanates ex vivo by the cecal microbiota, following different broccoli diets. Rats were randomized to consume AIN93G (control) or different broccoli diets; AIN93G plus cooked broccoli, a GRP-rich powder, raw broccoli, or myrosinase-treated cooked broccoli. Feeding raw or cooked broccoli for four days or longer both changed the cecal microbiota composition and caused a greater production of isothiocyanates ex vivo. A more than two-fold increase in NAD(P)H: quinone oxidoreductase 1 activity of the host colon mucosa after feeding cooked broccoli for seven days confirmed the positive health benefits. Further studies revealed that dietary GRP was specifically responsible for the increased microbial GRP hydrolysis ex vivo, whereas changes in the cecal microbial communities were attributed to other broccoli components. Interestingly, a three-day withdrawal from a raw broccoli diet reversed the increased microbial GRP hydrolysis ex vivo. Findings suggest that enhanced conversion of GRP to bioactive isothiocyanates by the cecal microbiota requires four or more days of broccoli consumption and is reversible.

Published

2017

23. Dietary broccoli mildly improves neuroinflammation in aged mice but does not reduce lipopolysaccharide-induced sickness behavior

Author

Elizabeth H. Jeffery, Rodney W. Johnson, Yung Ju Chen, and Brigitte E. Townsend

Subjects

Lipopolysaccharides, Aging, HMOX1, Endocrinology, Diabetes and Metabolism, Interleukin-1beta, medicine.disease_cause, Mice, chemistry.chemical_compound, 0302 clinical medicine, Endocrinology, BALB/c mice, Illness Behavior, 2. Zero hunger, Glucoraphanin, Mice, Inbred BALB C, 0303 health sciences, Nutrition and Dietetics, Behavior, Animal, Brain, food and beverages, Up-Regulation, 3. Good health, Liver, Receptors, Chemokine, Microglia, medicine.symptom, medicine.medical_specialty, LPS, NF-E2-Related Factor 2, CX3C Chemokine Receptor 1, Inflammation, Brassica, Biology, Article, Proinflammatory cytokine, 03 medical and health sciences, Internal medicine, Glial Fibrillary Acidic Protein, medicine, Animals, RNA, Messenger, Neuroinflammation, 030304 developmental biology, Broccoli, Heme oxygenase, chemistry, Immunology, Sulforaphane, 030217 neurology & neurosurgery, Oxidative stress

Abstract

Aging is associated with oxidative stress and heightened inflammatory response to infection. Dietary interventions to reduce these changes are therefore desirable. Broccoli contains glucoraphanin, which is converted to sulforaphane (SFN) by plant myrosinase during cooking preparation or digestion. Sulforaphane increases antioxidant enzymes including NAD(P)H quinone oxidoreductase and heme oxygenase I and inhibits inflammatory cytokines. We hypothesized that dietary broccoli would support an antioxidant response in brain and periphery of aged mice and inhibit lipopolysaccharide (LPS)–induced inflammation and sickness. Young adult and aged mice were fed control or 10% broccoli diet for 28 days before an intraperitoneal LPS injection. Social interactions were assessed 2, 4, 8, and 24 hours after LPS, and mRNA was quantified in liver and brain at 24 hours. Dietary broccoli did not ameliorate LPS-induced decrease in social interactions in young or aged mice. Interleukin-1β (IL-1β) expression was unaffected by broccoli consumption but was induced by LPS in brain and liver of adult and aged mice. In addition, IL-1β was elevated in brain of aged mice without LPS. Broccoli consumption decreased age-elevated cytochrome b-245 β, an oxidative stress marker, and reduced glial activation markers in aged mice. Collectively, these data suggest that 10% broccoli diet provides a modest reduction in age-related oxidative stress and glial reactivity, but is insufficient to inhibit LPS-induced inflammation. Thus, it is likely that SFN would need to be provided in supplement form to control the inflammatory response to LPS.

Published

2014

24. Glucosinolate hydrolysis and bioavailability of resulting isothiocyanates: Focus on glucoraphanin

Author

Donato Angelino and Elizabeth H. Jeffery

Subjects

Glucoraphanin, Nutrition and Dietetics, Nutrition. Foods and food supply, Myrosinase, Microbiota, Broccoli, Microbial metabolism, food and beverages, Medicine (miscellaneous), Sulforaphane, Bioavailability, chemistry.chemical_compound, Hydrolysis, chemistry, Biochemistry, Glucosinolate, Isothiocyanate, TX341-641, Food Science

Abstract

There is a growing interest in the health benefits of broccoli. Sulforaphane, the major bioactive component in broccoli, is an unstable isothiocyanate stored in the plant as glucoraphanin. Myrosinase enzymes release sulforaphane when the plant is crushed. Extraction during supplement formulation or heat processing can destroy myrosinase. When myrosinase activity is lost, colonic microbiota perform this hydrolysis in vivo. Here we review hydrolysis by myrosinase and microbiota. Myrosinase acts fast to generate a bolus of SF that is rapidly absorbed high in the gut and rapidly excreted. Microbial metabolism is slow and delayed. Sulforaphane absorption, distribution and excretion are discussed.

Published

2014

25. Impact of Broccoli on Molecular Biomarkers of Liver Health (P06-001-19)

Author

Zeynep Madak-Erdogan, Michael J. Miller, Elizabeth H. Jeffery, and Alicia Arredondo Eve

Subjects

Oncology, medicine.medical_specialty, Nutrition and Dietetics, Fatty acid biosynthesis, biology, Life style, business.industry, Brassica, food and beverages, Medicine (miscellaneous), Dietary Bioactive Components, biology.organism_classification, Molecular biomarkers, Chronic disease, Internal medicine, medicine, Amino acid metabolism, Quantitative Real-Time Polymerase Chain Reaction, business, Food Science

Abstract

OBJECTIVES: The diet in combination with lifestyle are contributing factors to obesity-associated diseases including type II diabetes, non-alcoholic hepatic diseases, cardiovascular disease and cancer. Broccoli, a brassica vegetable, can reduce the negative effects of a detrimental diet and sedentary lifestyle that can lead to obesity and impede the development of chronic diseases. There are no established molecular biomarkers that reflect the health benefits of dietary broccoli consumption. Thus, in this study we focused on health benefits of broccoli on liver and studied the relevance of blood metabolite profile changes and gene expression patterns in liver as indicators of liver disease development and prevention. METHODS: Rats (n = 3) were fed an AIN93G diet with 10% cooked freeze-dried broccoli for 14 days. We examined the impact of broccoli feeding on the plasma metabolite composition by metabolomics analysis and liver gene expression changes using Q-RT-PCR after 0, 1, 2, 4, 7, 14 days of broccoli feeding. RESULTS: We identified several metabolites that changed more than 2-fold compared to the level on day 0, including metabolites that were involved in liver pathways for glutathione synthesis, amino acid metabolism and de novo fatty acid synthesis. We found that repeated broccoli consumption changes gene expression levels (CD36, CPT-1, CD68) in the liver. CONCLUSIONS: Further characterizing health-promoting effects of broccoli in different in vivo obesity models will significantly expand our understanding of both liver health and the impact of dietary broccoli, having a broad impact on prevention of obesity-associated diseases, including NALFD and type II diabetes. FUNDING SOURCES: Funding provided by National Institute of Food and Agriculture, U.S. Department of Agriculture, College of ACES DNS 20/20 Award, USDA/AFRI Grant.

Published

2019

26. Optimization of methyl jasmonate application to broccoli florets to enhance health-promoting phytochemical content

Author

John A. Juvik, Elizabeth H. Jeffery, and Kang-Mo Ku

Subjects

Glucoraphanin, Nutrition and Dietetics, Methyl jasmonate, biology, Chemistry, Brassica, food and beverages, biology.organism_classification, Gluconasturtiin, chemistry.chemical_compound, Horticulture, Phytochemical, Glucosinolate, Isothiocyanate, Botany, Agronomy and Crop Science, Food Science, Biotechnology, Sulforaphane

Abstract

BACKGROUND Spray treatment of methyl jasmonate (MeJA) has been shown to increase glucosinolate (GS) concentrations and health-promoting activity in Brassica vegetables. Since there is no reported standardized protocol, several MeJA treatment studies have been conducted to maximize human health bioactivity using the F1 broccoli cultivar ‘Green Magic’. RESULTS Foliar MeJA application 4 days prior to harvest of broccoli at commercial maturity resulted in enhanced total GS concentrations. Although a single application of 250 µmol L−1 MeJA maximized GS concentrations in broccoli florets, two days of consecutive treatments (4 and 3 days prior to harvest) of 250 µmol L−1 MeJA further enhanced neoglucobrassicin concentrations and floret extract quinone reductase (QR)-inducing activity. With increasing concentrations of MeJA in spray applications to broccoli florets, concentrations of the glucosinolates glucoraphanin, gluconasturtiin and neoglucobrassicin and the isothiocyanate sulforaphane as well as anticancer and anti-inflammatory bioactivities as measured by QR induction and inhibition of nitric oxide (NO) production respectively were significantly increased. Concentrations of these phytochemicals showed strong positive correlations with QR-inducing and NO-inhibitory activities. CONCLUSION These application protocols were found to maximize GS and GS hydrolysis product concentrations and putatively enhance the health-promoting properties of broccoli heads for consumers. © 2013 Society of Chemical Industry

Published

2014

27. Modifying the Processing and Handling of Frozen Broccoli for Increased Sulforaphane Formation

Author

Edward B. Dosz and Elizabeth H. Jeffery

Subjects

Glucoraphanin, Visual alteration, biology, Myrosinase, Blanching, food and beverages, Shelf life, chemistry.chemical_compound, Lipoxygenase, chemistry, biology.protein, Food science, Food Science, Peroxidase, Sulforaphane

Abstract

Frozen broccoli can provide a cheaper product, with a longer shelf life and less preparation time than fresh broccoli. We previously showed that several commercially available frozen broccoli products do not retain the ability to generate the cancer-preventative agent sulforaphane. We hypothesized that this was because the necessary hydrolyzing enzyme myrosinase was destroyed during blanching, as part of the processing that frozen broccoli undergoes. This study was carried out to determine a way to overcome loss of hydrolyzing activity. Industrial blanching usually aims to inactivate peroxidase, although lipoxygenase plays a greater role in product degradation during frozen storage of broccoli. Blanching at 86 °C or higher inactivated peroxidase, lipoxygenase, and myrosinase. Blanching at 76 °C inactivated 92% of lipoxygenase activity, whereas there was only an 18% loss in myrosinase-dependent sulforaphane formation. We considered that thawing frozen broccoli might disrupt membrane integrity, allowing myrosinase and glucoraphanin to come into contact. Thawing frozen broccoli for 9 h did not support sulforaphane formation unless an exogenous source of myrosinase was added. Thermal stability studies showed that broccoli root, as a source of myrosinase, was not more heat stable than broccoli floret. Daikon radish root supported some sulforaphane formation even when heated at 125 °C for 10 min, a time and temperature comparable to or greater than microwave cooking. Daikon radish (0.25%) added to frozen broccoli that was then allowed to thaw supported sulforaphane formation without any visual alteration to that of untreated broccoli.

Published

2013

28. Proposed Method for Estimating Health-Promoting Glucosinolates and Hydrolysis Products in Broccoli (Brassica oleracea var. italica) Using Relative Transcript Abundance

Author

John A. Juvik, Elizabeth H. Jeffery, and Talon M. Becker

Subjects

0301 basic medicine, Brassica oleracea var italica, Glucosinolates, Brassica, Models, Biological, 03 medical and health sciences, Hydrolysis, chemistry.chemical_compound, Abundance (ecology), Plant defense against herbivory, NAD(P)H Dehydrogenase (Quinone), Food science, biology, business.industry, food and beverages, General Chemistry, biology.organism_classification, Biotechnology, 030104 developmental biology, Human nutrition, chemistry, Phytochemical, Glucosinolate, General Agricultural and Biological Sciences, business

Abstract

Due to the importance of glucosinolates and their hydrolysis products in human nutrition and plant defense, optimizing the content of these compounds is a frequent breeding objective for Brassica crops. Toward this goal, we investigated the feasibility of using models built from relative transcript abundance data for the prediction of glucosinolate and hydrolysis product concentrations in broccoli. We report that predictive models explaining at least 50% of the variation for a number of glucosinolates and their hydrolysis products can be built for prediction within the same season, but prediction accuracy decreased when using models built from one season's data for prediction of an opposing season. This method of phytochemical profile prediction could potentially allow for lower phytochemical phenotyping costs and larger breeding populations. This, in turn, could improve selection efficiency for phase II induction potential, a type of chemopreventive bioactivity, by allowing for the quick and relatively cheap content estimation of phytochemicals known to influence the trait.

Published

2016

29. Profiles of Glucosinolates, Their Hydrolysis Products, and Quinone Reductase Inducing Activity from 39 Arugula (Eruca sativa Mill.) Accessions

Author

Kang-Mo Ku, Elizabeth H. Jeffery, Young Hwa Kang, Moo Jung Kim, and John A. Juvik

Subjects

0106 biological sciences, Asia, Glucosinolates, Brassica, Eruca, Reductase, Biology, 01 natural sciences, chemistry.chemical_compound, Botany, NAD(P)H Dehydrogenase (Quinone), Plant Proteins, Glucoraphanin, Hydrolysis, 010401 analytical chemistry, General Chemistry, biology.organism_classification, 0104 chemical sciences, Europe, Plant Leaves, chemistry, Glucosinolate, Isothiocyanate, General Agricultural and Biological Sciences, 010606 plant biology & botany, Sulforaphane

Abstract

Glucosinolates, their hydrolysis product concentrations, and the quinone reductase (QR) inducing activity of extracts of leaf tissue were assayed from 39 arugula (Eruca sativa Mill.) accessions. Arugula accessions from Mediterranean countries (n = 16; Egypt, Greece, Italy, Libya, Spain, and Turkey) and Northern Europe (n = 2; Poland and United Kingdom) were higher in glucosinolates and their hydrolysis products, especially glucoraphanin and sulforaphane, compared to those from Asia (n = 13; China, India, and Pakistan) and Middle East Asia (n = 8; Afghanistan, Iran, and Israel). The QR inducing activity was also the highest in Mediterranean and Northern European arugula accessions, possibly due to a significant positive correlation between sulforaphane and QR inducing activity (r = 0.54). No nitrile hydrolysis products were found, suggesting very low or no epithiospecifier protein activity from these arugula accessions. Broad sense heritability (H(2)) was estimated to be 0.91-0.98 for glucoinolates, 0.55-0.83 for their hydrolysis products, and 0.90 for QR inducing activity.

Published

2016

30. Effect of Frequent Broccoli Intake on Rat Gut Microbiota Metabolism and Composition

Author

Elizabeth H. Jeffery, Yanling Wang, Michael J. Miller, and Xiaoji Liu

Subjects

Genetics, food and beverages, Composition (visual arts), Food science, Metabolism, Biology, Gut flora, biology.organism_classification, digestive system, Molecular Biology, Biochemistry, Biotechnology

Abstract

The aim of this study is to investigate whether frequent cooked broccoli intake can modify the composition and metabolism of gut microbiota, specifically if broccoli feeding improves the ability of...

Published

2016

31. Impact of Thermal Processing on Sulforaphane Yield from Broccoli (Brassica oleracea L. ssp. italica)

Author

Mark W. Farnham, Grace C. Wang, and Elizabeth H. Jeffery

Subjects

Glucoraphanin, Hot Temperature, Nitrile, biology, Plant Extracts, Myrosinase, Chemistry, Steaming, food and beverages, Brassica, General Chemistry, biology.organism_classification, Hydrolysis, chemistry.chemical_compound, Biochemistry, Isothiocyanates, Sulfoxides, Glucosinolate, Brassica oleracea, Cooking, Food science, Microwaves, General Agricultural and Biological Sciences, Sulforaphane

Abstract

In broccoli, sulforaphane forms when the glucosinolate glucoraphanin is hydrolyzed by the endogenous plant thiohydrolase myrosinase. A myrosinase cofactor directs hydrolysis away from the formation of bioactive sulforaphane and toward an inactive product, sulforaphane nitrile. The cofactor is more heat sensitive than myrosinase, presenting an opportunity to preferentially direct hydrolysis toward sulforaphane formation through regulation of thermal processing. Four broccoli cultivars were microwave heated, boiled, or steamed for various lengths of time. Production of nitrile during hydrolysis of unheated broccoli varied among cultivars from 91 to 52% of hydrolysis products (Pinnacle > Marathon > Patriot > Brigadier). Boiling and microwave heating caused an initial loss of nitrile, with a concomitant increase in sulforaphane, followed by loss of sulforaphane, all within 1 min. In contrast, steaming enhanced sulforaphane yield between 1.0 and 3.0 min in all but Brigadier. These data are proof of concept that steaming for 1.0-3.0 min provides less nitrile and more sulforaphane yield from a broccoli meal.

Published

2012

32. Enhancing sulforaphane absorption and excretion in healthy men through the combined consumption of fresh broccoli sprouts and a glucoraphanin-rich powder

Author

Margarita Teran-Garcia, Jenna M Cramer, and Elizabeth H. Jeffery

Subjects

Adult, Male, Adolescent, Nutritional Sciences, Glucosinolates, Medicine (miscellaneous), Brassica, Absorption, Excretion, Young Adult, chemistry.chemical_compound, Isothiocyanates, Neoplasms, Surveys and Questionnaires, Imidoesters, Oximes, Anticarcinogenic Agents, Humans, Food science, Glucoraphanin, Meal, Cross-Over Studies, Nutrition and Dietetics, Myrosinase, Hydrolysis, food and beverages, Acetylcysteine, Diet, Bioavailability, chemistry, Sulfoxides, Dietary Supplements, Isothiocyanate, Broccoli sprouts, Powders, Biomarkers, hormones, hormone substitutes, and hormone antagonists, Sulforaphane

Abstract

Sulforaphane (SF) is a chemopreventive isothiocyanate (ITC) derived from glucoraphanin (GRP) hydrolysis by myrosinase, a thioglucoside present in broccoli. The ability of broccoli powders sold as supplements to provide dietary SF is often of concern as many supplements contain GRP, but lack myrosinase. In a previous study, biomarkers of SF bioavailability from a powder rich in GRP, but lacking myrosinase, were enhanced by co-consumption of a myrosinase-containing air-dried broccoli sprout powder. Here, we studied the absorption of SF from the GRP-rich powder used in the previous study, but in combination with fresh broccoli sprouts, which are commercially available and more applicable to the human diet than air-dried sprout powder. A total of four participants each consumed four meals (separated by 1 week) consisting of dry cereal and yogurt with sprouts equivalent to 70 μmol SF, GRP powder equivalent to 120 μmol SF, both or neither. Metabolites of SF were analysed in blood and urine. The 24 h urinary SF-N-acetylcysteine recovery was 65, 60 and 24 % of the dose ingested from combination, broccoli sprout and GRP powder meals, respectively. In urine and plasma, ITC appearance was delayed following the GRP powder meal compared with the sprout and combination meals. Compared with the GRP powder or sprouts alone, combining broccoli sprouts with the GRP powder synergistically enhanced the early appearance of SF, offering insight into the combination of foods for improved health benefits of foods that reduce the risk for cancer.

Published

2011

33. Sulforaphane Absorption and Excretion Following Ingestion of a Semi-Purified Broccoli Powder Rich in Glucoraphanin and Broccoli Sprouts in Healthy Men

Author

Elizabeth H. Jeffery and Jenna M Cramer

Subjects

Adult, Male, Cancer Research, Adolescent, Glycoside Hydrolases, Glucosinolates, Medicine (miscellaneous), Brassica, Urine, Excretion, Eating, Young Adult, chemistry.chemical_compound, Isothiocyanates, Surveys and Questionnaires, Imidoesters, Oximes, Humans, Nutritional Physiological Phenomena, Food science, Glucoraphanin, Cross-Over Studies, Nutrition and Dietetics, Myrosinase, Hydrolysis, food and beverages, Biological Transport, Diet, Oncology, chemistry, Sulfoxides, Isothiocyanate, Broccoli sprouts, Liver function, Thiocyanates, Sulforaphane

Abstract

Sulforaphane (SF) is a chemopreventive isothiocyanate (ITC) derived from the myrosinase-catalyzed hydrolysis of glucoraphanin, a thioglucoside present in broccoli. Broccoli supplements often contain glucoraphanin but lack myrosinase, putting in question their ability to provide dietary SF. This study compared the relative absorption of SF from air-dried broccoli sprouts rich in myrosinase and a glucoraphanin-rich broccoli powder lacking myrosinase, individually and in combination. Subjects (n=4) each consumed 4 meals consisting of dry cereal and yogurt with 2 g sprouts, 2 g powder, both, or neither. Blood and urine were analyzed for SF metabolites. The 24 h urinary SF recovery was 74%, 49%, and 19% of the dose ingested from broccoli sprouts, combination, and broccoli powder meals, respectively. Urinary and plasma ITC appearance was delayed from the broccoli powder compared to the sprouts and combination. A liver function panel indicated no toxicity from any treatment at 24 h. These data indicate a delayed appearance in plasma and urine of SF from the broccoli powder relative to SF from myrosinase-rich sprouts. Combining broccoli sprouts with the broccoli powder enhanced SF absorption from broccoli powder, offering the potential for development of foods that modify the health impact of broccoli products.

Published

2011

34. The Impact of Loss of Myrosinase on the Bioactivity of Broccoli Products in F344 Rats

Author

Mette Soendergaard, Ning Zhu, Ren Hau Lai, and Elizabeth H. Jeffery

Subjects

Male, Glycoside Hydrolases, Colon, Food Handling, Glucosinolates, Biological Availability, Gene Expression, Brassica, Biology, Caecum, chemistry.chemical_compound, Downregulation and upregulation, Isothiocyanates, Imidoesters, Oximes, NAD(P)H Dehydrogenase (Quinone), Animals, Food science, Legume, Glucoraphanin, chemistry.chemical_classification, Meal, Plant Extracts, Myrosinase, Hydrolysis, food and beverages, General Chemistry, biology.organism_classification, Rats, Inbred F344, Rats, Enzyme, Liver, chemistry, Biochemistry, Sulfoxides, Seeds, General Agricultural and Biological Sciences, Thiocyanates, hormones, hormone substitutes, and hormone antagonists, Sulforaphane

Abstract

In vitro, animal, and epidemiological studies all show that broccoli products containing sulforaphane, the bioactive hydrolysis product of glucoraphanin (GRP), lower risk for cancer. As a result, GRP-rich extracts are appearing on the market as dietary supplements. However, these products typically have no hydrolyzing enzyme for sulforaphane (SF) formation. We evaluated safety and compared efficacy to other broccoli preparations. Four daily doses of 0.5 mmol GRP/kg BW, given by gavage to adult male F344 rats, caused temporary cecal inflammation that was essentially resolved four days later. A similar dose dispersed in the diet caused no inflammation. To compare efficacy, we fed rats 20% freeze-dried broccoli (heated or unheated), 3.5% broccoli seed meal, or 4.3% semipurified GRP, each balanced within an AIN93G semipurified diet, for 4 days. Diets lacking myrosinase (semipurified GRP and heated broccoli florets) caused upregulation of NAD(P)H-quinone oxidoreductase 1 (NQO1) in colon but not liver. Surprisingly, broccoli seed, rich in myrosinase and GRP, also caused NQO1 upregulation in colon but not liver. In contrast, unheated broccoli florets caused upregulation in both colon and liver. These data suggest that GRP supplements may not exert systemic effects. We hypothesize that within whole broccoli additional components enhanced sulforaphane-dependent upregulation of NQO1 in liver.

Published

2010

35. Feeding Tomato and Broccoli Powders Enriched with Bioactives Improves Bioactivity Markers in Rats

Author

John W. Erdman, Ann G. Liu, Sonja E. Volker, and Elizabeth H. Jeffery

Subjects

Male, Gene Expression, Context (language use), Brassica, Biology, Random Allocation, chemistry.chemical_compound, Phytoene, Cytochrome P-450 Enzyme System, Solanum lycopersicum, NAD(P)H Dehydrogenase (Quinone), Indole-3-carbinol, Animals, Food science, Glutathione Transferase, Plant Extracts, food and beverages, General Chemistry, Phytofluene, Lycopene, Rats, Liver, chemistry, Biochemistry, Broccoli sprouts, Whole food, General Agricultural and Biological Sciences, Biomarkers, Sulforaphane

Abstract

Many studies have evaluated the cancer -preventive potential of individual bioactives from tomatoes and broccoli, but few have examined them within the context of a whole food. Male Copenhagen rats were fed diets containing 10% standard tomato powder, tomato enriched with lycopene or total carotenoids, standard broccoli floret, broccoli sprouts, or broccoli enriched with indole glucosinolates or selenium for 7 days. All broccoli diets increased the activity of colon quinone reductase (NQO1). Indole glucosinolate-enriched broccoli and selenium-enriched broccoli increased hepatic NQO1 and cytochrome P450 1A activity (P < 0.05). Standard broccoli and lycopene-enriched tomato diets down-regulated prostatic glutathione S-transferase P1 mRNA expression. Different tomato diets resulted in altered hepatic accumulation of lycopene, phytofluene, and phytoene. These results demonstrate that the bioactive content of vegetables affects both tissue content of bioactives and activity of detoxification enzymes. Enhancing bioactive content of tomatoes and broccoli may enhance efficacy in the prevention of prostate cancer.

Published

2009

36. Physiological effects of broccoli consumption

Author

Marcela Araya and Elizabeth H. Jeffery

Subjects

Glucoraphanin, food and beverages, Cancer, Plant Science, Pharmacology, Biology, medicine.disease, Glucobrassicin, chemistry.chemical_compound, chemistry, Biochemistry, Glucosinolate, Cancer cell, Phase II Detoxification, Indole-3-carbinol, medicine, Biotechnology, Sulforaphane

Abstract

Epidemiological studies suggest that broccoli can decrease risk for cancer. Broccoli contains many bioactives, including vitamins C and E, quercetin and kaempferol glycosides and, like other members of the Brassicaceae, several glucosinolates, including glucobrassicin (3-indolylmethyl glucosinolate) and glucoraphanin (4-methylsulphinylbutyl glucosinolate). A key bioactive component responsible for much of this activity may be sulforaphane (1-isothiocyanato-4-methylsulfinylbutane), a hydrolysis product of glucoraphanin. Sulforaphane not only upregulates a number of phase II detoxification enzymes involved in clearance of chemical carcinogens and reactive oxygen species, but has anti-tumorigenic properties, causing cell cycle arrest and apoptosis of cancer cells. The bioequivalency of sulforaphane and whole broccoli have not been fully evaluated, leaving it unclear whether whole broccoli provides a similar effect to purified sulforaphane, or whether the presence of other components in broccoli, such as indole-3-carbinol from glucobrassicin, is an added health benefit. Dietary indole-3-carbinol is known to alter estrogen metabolism, to cause cell cycle arrest and apoptosis of cancer cells and, in animals, to decrease risk for breast cancer. Recent research suggests that both dietary broccoli and the individual components sulforaphane and indole-3-carbinol may offer protection from a far broader array of diseases than cancer, including cardiovascular and neurodegenerative diseases. A common link between these oxidative degenerative diseases and cancer may be aggravation by inflammation. A small body of literature is forming suggesting that both indole-3-carbinol and sulforaphane may protect against inflammation, inhibiting cytokine production. It remains to be seen whether cancer, cardiovascular disease, dementia and other diseases of aging can all benefit from a diet rich in broccoli and other crucifers.

Published

2008

37. Sulforaphane and erucin increase MRP1 and MRP2 in human carcinoma cell lines

Author

Kristin E. Harris and Elizabeth H. Jeffery

Subjects

Lung Neoplasms, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Sulfides, Biology, Endoplasmic Reticulum, Biochemistry, chemistry.chemical_compound, Isothiocyanates, Multidrug Resistance Protein 1, Cell Line, Tumor, Anticarcinogenic Agents, Humans, RNA, Messenger, Molecular Biology, A549 cell, Nutrition and Dietetics, Multidrug resistance-associated protein 2, Carcinoma, Membrane Transport Proteins, Multidrug Resistance-Associated Protein 2, Multiple drug resistance, chemistry, Sulfoxides, Phase II Detoxification, Cancer cell, Cancer research, Efflux, Caco-2 Cells, Multidrug Resistance-Associated Proteins, Thiocyanates, Sulforaphane

Abstract

Multidrug resistance (MDR) transporters have been termed the Phase III detoxification system because they not only export endogenous metabolites but provide protection from xenobiotic insult by actively secreting foreign compounds and their metabolites from tissues. However, MDR overexpression in tumors can lead to drug resistance, a major obstacle in the treatment of many cancers, including lung cancer. Isothiocyanates from cruciferous vegetables, such as sulforaphane (SF) and erucin (ER), are known to enhance the expression of Phase II detoxification enzymes. Here we evaluated the ability of SF and ER to modulate MDR mRNA and protein expressions, as well as transporter activity. The expression of P-glycoprotein (P-gp), multidrug resistance protein 1 (MRP1) and multidrug resistance protein 2 (MRP2) in liver (HepG2), colon (Caco-2) and lung (A549) cancer cells treated with ER or SF was analyzed by Western blotting. Neither SF nor ER affected P-gp expression in any of the cell lines tested. Both SF and ER increased the protein levels of MRP1 and MRP2 in HepG2 cells and of MRP2 in Caco-2 cells in a dose-dependent manner. In A549 lung cancer cells, SF increased MRP1 and MRP2 mRNA and protein levels; ER caused a similar yet smaller increase in MRP1 and MRP2 mRNA. In addition, SF and ER increased MRP1-dependent efflux of 5-carboxyfluorescein diacetate in A549 cells, although again the effect of SF was substantially greater than that of ER. The implication of these findings is that dietary components that modulate detoxification systems should be studied carefully before being recommended for use during chemotherapy, as these compounds may have additional influences on the disposition of chemotherapeutic drugs.

Published

2008

38. Evaluation of the safety and bioactivity of purified and semi-purified glucoraphanin

Author

Anna-Sigrid Keck, Ren Hau Lai, L. G. West, Elizabeth H. Jeffery, and M.A. Wallig

Subjects

Male, medicine.medical_specialty, Colon, Glucosinolates, Brassica, Toxicology, Cecum, chemistry.chemical_compound, Cytosol, Oxidoreductase, Microsomes, Internal medicine, Imidoesters, Oximes, Cytochrome P-450 CYP1A1, NAD(P)H Dehydrogenase (Quinone), medicine, Animals, Anticarcinogenic Agents, Lung, chemistry.chemical_classification, Glucoraphanin, Dose-Response Relationship, Drug, Myrosinase, Biological activity, General Medicine, Rats, Inbred F344, Diet, Rats, Glucose, Enzyme, medicine.anatomical_structure, Endocrinology, Liver, chemistry, Sulfoxides, Seeds, Toxicity, Oxidation-Reduction, hormones, hormone substitutes, and hormone antagonists, Food Science, Sulforaphane

Abstract

The anti-carcinogenic effects of broccoli have been attributed to sulforaphane, the hydrolysis product of glucoraphanin (GRP). Here we determined if purified GRP, in the absence of the plant-derived hydrolyzing enzyme myrosinase, could affect pulmonary and hepatic ethoxyresorufin O-deethylase (EROD) and/or NAD(P)H-quinone oxidoreductase 1 (NQO1) activity. Male F344 rats were administered semi-synthetic, semi-purified or purified GRP (240 mg/kg: 550 micromol/kg rat daily for 4 days) by gavage. Hepatic and pulmonary NQO1 activity increased ( approximately 20%), but not EROD. Varying doses of semi-purified GRP (30, 60, or 120 mg/kg rat daily for 4 days) again caused no change in EROD activity, although a dose-dependent increase in NQO1 was seen. Urinary excretion of mercapturic acids showed no difference between preparations, and recovery increased with decreasing dose. Histopathologic examination revealed no abnormal tissues other than cecum, where inflammation was dose dependent; mild at 120 mg/kg and severe at 240 mg/kg, a greatly supra-physiological dose. We conclude that GRP 30-60 mg/kg p.o. is safe and effectively enhances NQO1 in all tissues evaluated.

Published

2008

39. A Polymerase Chain Reaction-based Linkage Map of Broccoli and Identification of Quantitative Trait Loci Associated with Harvest Date and Head Weight

Author

Elizabeth H. Jeffery, John A. Juvik, and Allan F. Brown

Subjects

Genetics, Linkage (software), education.field_of_study, Sequence-related amplified polymorphism, Population, food and beverages, Horticulture, Heritability, Quantitative trait locus, Biology, biology.organism_classification, Genetic analysis, Genetic linkage, Brassica oleracea, education

Abstract

A set of 216 polymerase chain reaction-based molecular markers was screened for polymorphisms using two morphologically dissimilar broccoli (Brassica oleracea L. ssp. italica Plenck) lines, ‘VI-158’ and ‘‘Brocolette Neri E. Cespuglio’. Fifty-nine of these simple sequence repeat (SSR) and sequence-related amplified polymorphic (SRAP) primer pairs generated 69 polymorphisms that were used to construct a linkage map of broccoli from a population of 162 F2:3 families derived from the cross between these two lines. Ten linkage groups were generated that spanned a distance of 468 cM with an average interval width of 9.4 cM. The map was used to identify quantitative trait loci (QTL) associated with differences in harvest date maturity and head weight in the population grown in the same location over 2 years. Heritability estimates for days to maturity and head weight were 0.84 and 0.64, respectively. Four QTL for harvest maturity were identified that described 55.6% of the phenotypic variation in the first year with two of these QTL also detected in the second year of the experiment that described 29.2% of the phenotypic variation. Five QTL were identified as associated with head weight in 1999 and accounted for 71.8% of the phenotypic variability. Two of these QTL accounted for 24% of the phenotypic variability in head weight in 2000. To our knowledge, this is the first linkage map of broccoli and the first combined SSR and SRAP map of B. oleracea, which should provide a useful tool for the genetic analysis of traits specific to ssp. italica.

Published

2007

40. Role of CYP3A and CYP2E1 in Alcohol-Mediated Increases in Acetaminophen Hepatotoxicity: Comparison of Wild-Type andCyp2e1(–/–) Mice

Author

Kristina K. Wolf, David J. Greenblatt, Steven A. Wrighton, Nadia Gorman, Brooke W. Walton-Strong, Frank J. Gonzalez, Qin Hao, Jacqueline F. Sinclair, Sheryl G. Wood, Elizabeth H. Jeffery, Peter R. Sinclair, Su X. Duan, Michael H. Court, Jenna L. Allard, Vsevolod E. Kostrubsky, Juliana G. Szakacs, Jane A. Hunt, and Lisa L. von Moltke

Subjects

Male, CYP3A, Pharmaceutical Science, Pharmacology, Hydroxylation, Severity of Illness Index, Troleandomycin, Mice, Glucuronides, Pentanols, Cytochrome P-450 Enzyme System, Cytochrome P-450 CYP1A2, Benzoquinones, medicine, Animals, Cytochrome P-450 CYP3A, Cytochrome P-450 Enzyme Inhibitors, Testosterone, Antipyretic, Enzyme Inhibitors, Acetaminophen, Mice, Knockout, Ethanol, biology, Chemistry, Liver Diseases, digestive, oral, and skin physiology, CYP1A2, Cytochrome P450, Alanine Transaminase, Cytochrome P-450 CYP2E1, Drug Synergism, CYP2E1, Glutathione, Disease Models, Animal, Liver, Enzyme Induction, Toxicity, Microsome, biology.protein, Imines, Chemical and Drug Induced Liver Injury, medicine.drug

Abstract

CYP2E1 is widely accepted as the sole form of cytochrome P450 responsible for alcohol-mediated increases in acetaminophen (APAP) hepatotoxicity. However, we previously found that alcohol [ethanol and isopentanol (EIP)] causes increases in APAP hepatotoxicity in Cyp2e1(-/-) mice, indicating that CYP2E1 is not essential. Here, using wild-type and Cyp2e1(-/-) mice, we investigated the relative roles of CYP2E1 and CYP3A in EIP-mediated increases in APAP hepatotoxicity. We found that EIP-mediated increases in APAP hepatotoxicity occurred at lower APAP doses in wild-type mice (300 mg/kg) than in Cyp2e1(-/-) mice (600 mg/kg). Although this result suggests that CYP2E1 has a role in the different susceptibilities of these mouse lines, our findings that EIP-mediated increases in CYP3A activities were greater in wild-type mice compared with Cyp2e1(-/-) mice raises the possibility that differential increases in CYP3A may also contribute to the greater APAP sensitivity in EIP-pretreated wild-type mice. At the time of APAP administration, which followed an 11 h withdrawal from the alcohols, alcohol-induced levels of CYP3A were sustained in both mouse lines, whereas CYP2E1 was decreased to constitutive levels in wild-type mice. The CYP3A inhibitor triacetyloleandomycin (TAO) decreased APAP hepatotoxicity in EIP-pretreated wild-type and Cyp2e1(-/-) mice. TAO treatment in vivo resulted in inhibition of microsomal CYP3A-catalyzed activity, measured in vitro, with no inhibition of CYP1A2 and CYP2E1 activities. In conclusion, these findings suggest that both CYP3A and CYP2E1 contribute to APAP hepatotoxicity in alcohol-treated mice.

Published

2007

41. Can Food Processing Enhance Cancer Protection?

Author

Johanna W. Lampe, Amanda J. Cross, John W. Erdman, Elizabeth H. Jeffery, and Marc Hendrickx

Subjects

Nutrition and Dietetics, Knowledge management, Relation (database), business.industry, digestive, oral, and skin physiology, MEDLINE, Food processing, Medicine, Cancer, Cancer risk, business, medicine.disease, Article

Abstract

Food processing can be defined as the transformation of raw ingredients into food or of food into other forms. This review summarizes an American Institute for Cancer Research symposium that addressed the question of what is known about food processing in relation to cancer risk. To approach this question, it is valuable to understand something about the evolutionaryhistoryoffoodprocessingaswellasthebroad

Published

2015

42. Myrosinase-dependent and –independent formation and control of isothiocyanate products of glucosinolate hydrolysis

Author

Pei Chen, Edward B. Dosz, James M. Harnly, Maxwell L. Van Tassell, Jianghao Sun, Donato Angelino, Elizabeth H. Jeffery, Jennifer L. Hoeflinger, and Michael J. Miller

Subjects

Brassica, microbiome, sulforaphane, Plant Science, lcsh:Plant culture, chemistry.chemical_compound, Hydrolysis, lcsh:SB1-1110, Glucosinolate hydrolysis, Isothiocyanate, Microbiome, Myrosinase, Sulforaphane, Thiol binding, chemistry.chemical_classification, biology, fungi, myrosinase, food and beverages, biology.organism_classification, thiol binding, Enzyme, chemistry, Biochemistry, glucosinolate hydrolysis, Glucosinolate, Perspective, isothiocyanate, Bacteria, Glucosinolates Hydrolysis

Abstract

Brassicales contain a myrosinase enzyme that hydrolyzes glucosinolates to form toxic isothiocyanates, as a defense against bacteria, fungi, insects and herbivores including man. Low levels of isothiocyanates trigger a host defense system in mammals that protects them against chronic diseases. Because humans typically cook their brassica vegetables, destroying myrosinase, there is a great interest in determining how human microbiota can hydrolyze glucosinolates and release them, to provide the health benefits of isothiocyanates. Isothiocyanates are highly reactive electrophiles, binding reversibly to thiols, but accumulating and causing damage when free thiols are not available. We found that addition of excess thiols released protein-thiol-bound isothiocyanates, but that the microbiome supports only poor hydrolysis unless exposed to dietary glucosinolates for a period of days. These findings explain why 3 – 5 servings a week of brassica vegetables may provide health effects, even if they are cooked.

Published

2015

43. Impact of Dietary Broccoli on Liver Cancer in B6C3F1 Male Mice Fed a Western Diet

Author

Elizabeth H. Jeffery, Yung-Ju Chen, and Matthew A. Wallig

Subjects

business.industry, Physiology, Male mice, Carbohydrate, medicine.disease, Biochemistry, Obesity, Western diet, Genetics, medicine, Food science, Liver cancer, Eating habits, business, Molecular Biology, Dietary fat, Biotechnology

Abstract

Westernized eating habits, high in dietary fat and refined carbohydrate (CHO), are thought to play an important role in the increased prevalence of obesity world-wide. Obesity and associated inflam...

Published

2015

44. NTP-CERHR expert panel report on the reproductive and developmental toxicity of genistein

Author

Christina D. Chambers, David M. Umbach, Deborah K. Hansen, Patricia B. Hoyer, Jodi A. Flaws, Martine Culty, Elizabeth H. Jeffery, Sue Marty, Ruth A. Etzel, John A. Thomas, Karl K. Rozman, Antonia M. Calafat, Jatinder Bhatia, and James S. Kesner

Subjects

Male, Embryology, Reproduction, Health, Toxicology and Mutagenesis, Library science, Phytoestrogens, Research needs, In Vitro Techniques, Biology, Toxicology, Genistein, United States, Article, Fetal Development, Panel report, Isoflavone Derivatives, National Institutes of Health (U.S.), Pregnancy, Animals, Humans, Female, Expert Testimony, Developmental Biology

Abstract

Correspondence to: Michael D. Shelby, PhD, NIEHS EC-32, PO Box 12233, Research Triangle Park, NC 27709. E-mail: shelby@niehs.nih.gov ‡Dr. Kesner was unable to participate in the Expert Panel meeting but participated in the drafting and review of the report before and after the meeting. Following the Expert Panel meeting, some panel members reconsidered research needs 2–5 (Drs. Bhatia, Calafat, Flaws, Hansen, Hoyer, Jeffery, Rozman, Thomas) or research need 2 alone (Dr. Marty) and concluded that they/it would not be critical to a future evaluation of genistein. †This article is a U.S. Government work and, as such, is in the public domain in the United States of America.

Published

2006

45. NTP-CERHR Expert Panel Report on the reproductive and developmental toxicity of soy formula

Author

Ruth A. Etzel, John A. Thomas, Martine Culty, Christina D. Chambers, Jodi A. Flaws, Sue Marty, David M. Umbach, Karl K. Rozman, James S. Kesner, Jatinder Bhatia, Antonia M. Calafat, Elizabeth H. Jeffery, Deborah K. Hansen, and Patricia B. Hoyer

Subjects

Male, Embryology, business.industry, Reproduction, viruses, Health, Toxicology and Mutagenesis, Developmental toxicity, Toxicology, Isoflavones, Infant Formula, Article, Soy Milk, Biotechnology, Soy product, Panel report, Fetus, Pregnancy, Environmental health, Animals, Humans, Medicine, Female, business, Developmental Biology

Abstract

The National Toxicology Program (NTP) and the National Institute of Environmental Health Sciences (NIEHS) established the NTP Center for the Evaluation of Risks to Human Reproduction (CERHR) in June 1998. The purpose of the Center is to provide timely, unbiased, scientifically sound evaluations of human and experimental evidence for adverse effects on reproduction and development caused by agents to which humans may be exposed.

Published

2006

46. Correlation Analyses of Phytochemical Composition, Chemical, and Cellular Measures of Antioxidant Activity of Broccoli (Brassica oleraceaL. Var. italica)

Author

John A. Juvik, Elizabeth H. Jeffery, Anna-Sigrid Keck, Kanta Kobira, and Marian V Eberhardt

Subjects

Carcinoma, Hepatocellular, Antioxidant, Oxygen radical absorbance capacity, medicine.medical_treatment, Brassica, medicine.disease_cause, Antioxidants, chemistry.chemical_compound, Dichlorofluorescein, Cell Line, Tumor, medicine, Humans, Carotenoid, chemistry.chemical_classification, Liver Neoplasms, food and beverages, General Chemistry, Comet assay, Oxidative Stress, Biochemistry, chemistry, Phytochemical, Polyphenol, Reactive Oxygen Species, General Agricultural and Biological Sciences, Oxidation-Reduction, Oxidative stress, DNA Damage

Abstract

Chemical measures of antioxidant activity within the plant, such as the oxygen radical absorbance capacity (ORAC) assay, have been reported for many plant-based foods. However, the extent to which chemical measures relate to cellular measures of oxidative stress is unclear. The natural variation in the phytochemical content of 22 broccoli genotypes was used to determine correlations among chemical composition (carotenoids, tocopherols and polyphenolics), chemical antioxidant activity (ORAC), and measures of cellular antioxidation [prevention of DNA oxidative damage and of oxidation of the biomarker dichlorofluorescein (DCFH) in HepG2 cells] using hydrophilic and lipophilic extracts of broccoli. For lipophilic extracts, ORAC (ORAC-L) correlated with inhibition of cellular oxidation of DCFH (DCFH-L, r = 0.596, p = 0.006). Also, DNA damage in the presence of the lipophilic extract was negatively correlated with both chemical and cellular measures of antioxidant activity as measured by ORAC-L (r = -0.705, p = 0.015) and DCFH-L (r = -0.671, p = 0.048), respectively. However, no correlations were observed for hydrophilic (-H) extracts, except between polyphenol content and ORAC (ORAC-H; r = 0.778, p < 0.001). Inhibition of cellular oxidation by hydrophilic extracts (DCFH-H) and ORAC-H were approximately 8- and 4-fold greater than DCFH-L and ORAC-L, respectively. Whether ORAC-H has more biological relevance than ORAC-L because of its magnitude or whether ORAC-L bears more biological relevance because it relates to cellular estimates of antioxidant activity remains to be determined. Chemical estimates of antioxidant capacity within the plant may not accurately reflect the complex nature of the full antioxidant activity of broccoli extracts within cells.

Published

2005

47. Dietary soy protein and isoflavones: no effect on the reproductive tract and minimal positive effect on bone resorption in the intact female Fischer 344 rat

Author

Janice M. Bahr, Masaaki Nakai, Elizabeth H. Jeffery, and Molly Black

Subjects

medicine.medical_specialty, Deoxypyridinoline, Uterus, Biology, Toxicology, Bone resorption, chemistry.chemical_compound, Bone Density, Casein, Internal medicine, medicine, Animals, Bone Resorption, Soy protein, Bone mineral, Body Weight, General Medicine, Isoflavones, Rats, Inbred F344, Rats, Resorption, Endocrinology, medicine.anatomical_structure, chemistry, Soybean Proteins, Female, Dietary Proteins, Food Science

Abstract

Our previous study evaluating 3 months of feeding soy protein or isoflavones (IF) to intact adult Sprague-Dawley (SD) rats showed no change in bone and the vagina but occasional extensive squamous metaplasia of the uterine glandular epithelium was observed. The current study was designed to characterize further these effects of soy protein or IF on the uterus using the Fischer 344 (F344) rat, a known high responder strain to estrogenic stimuli. Three-month-old intact F344 rats were divided into five groups and fed diets containing either casein, low or high amount of soy protein or casein with low or high amount of IF extract. Body weight, urinary deoxypyridinoline (Dpyr), bone mineral density (BMD) of the femur and lumbar, uterine wet weight and histology of the reproductive tract were evaluated. No significant difference was seen in bone parameters between control and treatment groups except for a lower Dpyr in the high soy and a higher lumbar BMD in the low soy groups. No alteration was seen in the reproductive tract of all treatment groups. Contrary to our hypothesis, the present results suggest that the uterus of the F344 strain is less sensitive to dietary soy protein and IF than that of the SD strain.

Published

2005

48. The Tomato As a Functional Food

Author

John W. Erdman, Jessica K. Campbell, Susan Zaripheh, Elizabeth H. Jeffery, and Kirstie Canene-Adams

Subjects

Male, medicine.medical_specialty, Food Handling, Medicine (miscellaneous), Coronary Disease, Disease, chemistry.chemical_compound, Animal data, Prostate cancer, Lycopene, Solanum lycopersicum, Functional food, Internal medicine, medicine, Humans, Cooking, Food science, Nutrition and Dietetics, business.industry, fungi, Prostatic Neoplasms, food and beverages, Cancer, medicine.disease, Carotenoids, Endocrinology, chemistry, Phytochemical, Food, Animal studies, business

Abstract

Tomatoes are the fourth most commonly consumed fresh vegetable and the most frequently consumed canned vegetable in the American diet. There is emerging epidemiology data supporting the connection between increased tomato consumption and reduced risk for both cardiovascular disease and prostate cancer. Here we will summarize the nutrient and the phytochemical content of tomatoes and tomato products, and how these bioactive components might act together to modulate disease development. Recent animal studies have investigated tomatoes, lycopene, and prostate cancer using the N-methyl-N-nitrosourea and Dunning rat models. These animal studies also suggest that diets containing tomatoes may decrease the risk or the progression of prostate cancer. Due to the frequency and the extent of tomato consumption, the supporting epidemiological and animal data, which connect increased intakes with decreased cancer and cardiovascular disease risk, tomato's role in the American diet is of undeniable importance as part of a healthy diet.

Published

2005

49. Dietary soy protein and isoflavones have no significant effect on bone and a potentially negative effect on the uterus of sexually mature intact Sprague-Dawley female rats

Author

Leah M. Pyter, Masaaki Nakai, Jean Sibona, Leslie Cook, Janice M. Bahr, Russell T Turner, Molly Black, and Elizabeth H. Jeffery

Subjects

medicine.medical_specialty, Deoxypyridinoline, Uterus, Bone and Bones, Rats, Sprague-Dawley, chemistry.chemical_compound, Bone Density, Internal medicine, Casein, medicine, Animals, Humans, Femur, Amino Acids, Soy protein, Bone mineral, business.industry, Body Weight, Obstetrics and Gynecology, Organ Size, Isoflavones, Diet, Rats, Endocrinology, medicine.anatomical_structure, Premenopause, chemistry, Vagina, Soybean Proteins, Female, Uterine gland, business, Biomarkers

Abstract

Objective: To evaluate the effect of dietary soy protein and isoflavones on bone and the reproductive tract in premenopausal rats. Design: Three-month-old intact Sprague-Dawley female rats (N = 50) were fed diets containing casein, soy protein, or casein with isoflavone extract for 12 weeks. The amount of casein, soy protein, and extract (per kilogram diet) in each group was: (1) 200 g casein (control); (2) 100 g casein plus 100 g soy protein (low soy); (3) 200 g soy protein (high soy); 4) 200 g casein plus 17.2g extract (low extract); and (5) 200 g casein plus 34.4 g extract (high extract). Diet consumption, body weight, uterine wet weight, urinary deoxypyridinoline concentration, and bone mineral density of the femur and lumbar vertebrae were measured. Femur rigidity was evaluated by histomorphometry. The uterus and vagina were studied histologically. Results: Rats in all treatment groups had lower body weights and lower deoxypyridinoline concentrations compared with controls, but none of the differences was statistically significant. There was no significant difference in femur and lumbar bone mineral density, uterine wet weights, or histomorphometry between the control and treatment groups. Histologically, uteri and vaginae were normal in all groups except that 1 of 10 rats in the high-soy group and 2 of 10 rats in the high-extract group showed extensive squamous metaplasia in the uterine gland. Conclusion: These results suggest that dietary isolated soy protein and isoflavones have no effect on bone and the vagina during premenopausal period, but may have an adverse effect on the uterus.

Published

2005

50. Effects of Different Processing Methods on Induction of Quinone Reductase by Dietary Broccoli in Rats

Author

Elizabeth H. Jeffery and Eun Sun Hwang

Subjects

Male, Colon, Food Handling, Glucosinolates, Medicine (miscellaneous), Brassica, Reductase, Kidney, Random Allocation, chemistry.chemical_compound, Isothiocyanates, NAD(P)H Dehydrogenase (Quinone), Animals, Anticarcinogenic Agents, Cooking, Desiccation, Nutrition and Dietetics, Dose-Response Relationship, Drug, Cruciferous vegetables, Hydrolysis, Mutagenesis, food and beverages, Rats, Inbred F344, Rats, Quinone, Dose–response relationship, Freeze Drying, Liver, chemistry, Biochemistry, Enzyme Induction, Sulfoxides, Isothiocyanate, Toxicity, Thiocyanates, Sulforaphane

Abstract

Broccoli belongs to a group of cruciferous vegetables characterized by its content of glucosinolates, secondary metabolites that, upon hydrolysis, release bioactive isothiocyanates (ITCs). Sulforaphane, the major ITC from broccoli, is believed to protect the body from cancer by induction of detoxification enzymes such as quinone reductase (QR). Sulforaphane provides powerful protection against carcinogenesis, mutagenesis, and other forms of toxicity by electrophiles and reactive forms of oxygen. The purpose of this study was to investigate the effects of processing methods on the ability of broccoli to induce QR in various rat tissues. Male F344 rats (four per group) received an AIN 76B-40 diet containing either 0% or 20% broccoli processed by different methods (dehydrated, freeze-dried, or freeze-dried and hydrolyzed) for 5 days. Colon tissues of rats receiving dehydrated, freeze-dried, and hydrolyzed broccoli diets showed QR induction of 9.1-, 10.5-, and 6.4-fold, respectively. Induction of QR by dehydrated broccoli in the liver and kidney was significantly less robust than in colon, being 2.3- and 1.6-fold over control, respectively. These results suggest that freeze-drying and dehydration are promising approaches for providing the public with the functional benefits of broccoli consumption.

Published

2004