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1. A Perennial Green Revolution to address 21st‐century food insecurity and malnutrition

Author

Jacob D. Paul, Tymofiy Lutsiv, and Henry J. Thompson

Subjects
food insecurity, Green Revolution, malnutrition, perennial food crop, Agriculture, Agriculture (General), S1-972
Abstract

Abstract Farming practices of the past century have dramatically increased annual crop yields to unprecedented levels but have consequentially created increasing ecological and public health concerns, posing a long‐term threat to global food security. Soil tillage and chemical inputs perpetuate soil erosion, biodiversity loss, wetlands eutrophication, carbon emissions, and other farming stressors. Concomitantly, accompanying poor dietary patterns and malnutrition increase the risk for chronic diseases, such as cardiovascular diseases, obesity, type 2 diabetes, and cancer, which account for greater than 70% of global mortality per annum. Altogether, such annual monocropping systems exacerbate food insecurity, necessitating action across the fields of public health, agriculture, nutrition, medicine, and environmental ecology, that is, a transdisciplinary approach. Herein, we argue that the perennialization of crops creates an opportunity to address the challenges of environmental sustainability and nutritional adequacy economically. Unlike annuals, perennial crops have deeper roots for increased drought tolerance and reduced needs for fertilization and irrigation. Adopting perenniality can result in greater drought tolerance and improved soil health while reducing erosion, farming labor, and seed purchasing. Furthermore, perennializing novel staple crops may offer a superior and diverse dietary profile of phytochemicals, fiber, and macronutrients compared to conventional annuals. Instead of traditional perennial tree crops, we focus on intermediate wheatgrass Kernza® (Thinopyrum intermedium) and sunflowers (Helianthus tuberosus, H. maximiliani, and Silphium integrifolium) as exemplars of perennial staple food crops for grain and oil, respectively, at different stages of perennial crop commercialization. Ultimately, we discuss how integrating perenniality has the potential to revolutionize global agriculture and address food security concerns for the remainder of the 21st century.

Published
2024
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2. Impact of a Pulse-Enriched Human Cuisine on Functional Attributes of the Gut Microbiome Using a Preclinical Model of Dietary-Induced Chronic Diseases

Author

Tymofiy Lutsiv, Elizabeth S. Neil, John N. McGinley, Chelsea Didinger, Vanessa K. Fitzgerald, Tiffany L. Weir, Hisham Hussan, Terryl J. Hartman, and Henry J. Thompson

Subjects
beans, chronic disease, cuisine, dietary pattern, gut microbiome, microbial ecosystem, Nutrition. Foods and food supply, TX341-641
Abstract

Introducing grain legumes, i.e., pulses, into any food pattern effectively increases dietary fiber and other bioactive food components of public health concern; however, the impact depends on the amount consumed. Given the convergence of preclinical and clinical data indicating that intake of at least 300 g (1.5 cup) of cooked pulse per day has clinically observable benefit, the feasibility for a typical consumer was demonstrated by creation of a fourteen-day menu plan that met this criterion. This menu plan, named Bean Cuisine, was comprised of a combination of five cooked pulses: dry beans, chickpeas, cowpeas, dry peas, and lentils. As reported herein, the impact of each menu day of the fourteen-day plan on gut microbial composition and predicted function was evaluated in female C57BL/6J mice, a strain commonly used in studies of metabolic dysfunction-associated chronic diseases. We report that pulse-related effects were observed across a wide variety of food item combinations. In comparison to a pulse-free human cuisine, all pulse menu days enriched for a gut ecosystem were associated with changes in predicted metabolic pathways involving amino acids (lysine, tryptophan, cysteine), short-chain fatty acids (butyrate, acetate), and vitamins (B1, B6, B9, B12, K2) albeit via different combinations of microbiota, according to the PICRUSt2 estimates. The predicted metabolic functions correlating with the various pulses in the menus, indicate the value of a food pattern comprised of all pulse types consumed on a regular basis. This type of multi-pulse food pattern has the potential to enhance the taxonomic and functional diversity of the gut microbiome as a means of strengthening the resilience of the gut ecosystem to the challenges associated with the daily activities of living.

Published
2024
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3. Common Bean Suppresses Hepatic Ceramide Metabolism in a Mouse Model of Metabolic Dysfunction-Associated Steatotic Liver Disease

Author

Vanessa K. Fitzgerald, Tymofiy Lutsiv, John N. McGinley, Elizabeth S. Neil, Mary C. Playdon, and Henry J. Thompson

Subjects
ceramides, common bean, lipid metabolism, metabolic dysfunction-associated steatotic liver disease, metabolomics, serine palmitoyl transferase, Nutrition. Foods and food supply, TX341-641
Abstract

Background/Objectives: The incidence of metabolic dysfunction-associated steatotic liver disease (MASLD), a condition linked to the ongoing obesity pandemic, is rapidly increasing worldwide. In turn, its multifactorial etiology is consistently associated with low dietary quality. Changing dietary macronutrient and phytochemical quality via incorporating cooked common bean into an obesogenic diet formulation has measurable health benefits on the occurrence of both obesity and hepatic steatosis in C57BL/6 mice. Methods: A cohort of C57BL/6 mice were randomized into experimental diets containing multiple dietary concentrations of common bean. The primary endpoint of this study was comparing metabolomic analyses from liver and plasma of different treatment groups. Additionally, RNA sequencing and protein expression analysis via nanocapillary immunoelectrophoresis were used to elucidate signaling mediators involved. Results: Herein, global metabolomic profiling of liver and plasma identified sphingolipids as a lipid subcategory on which bean consumption exerted significant effects. Of note, C16 and C18 ceramides were significantly decreased in bean-fed animals. Hepatic RNAseq data revealed patterns of transcript expression of genes involved in sphingolipid metabolism that were consistent with metabolite profiles. Conclusions: Bean incorporation into an otherwise obesogenic diet induces effects on synthesis, biotransformation, and degradation of sphingolipids that inhibit the accumulation of ceramide species that exert pathological activity. These effects are consistent with a mechanistic role for altered sphingolipid metabolism in explaining how bean inhibits the development of MASLD.

Published
2024
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4. Ultra-Processed Foods—Dietary Foe or Potential Ally?

Author

Sabrina Nees, Tymofiy Lutsiv, and Henry J. Thompson

Subjects
non-communicable diseases, food processing, nutritional quality, nutrient density, ultra-processed foods, Nutrition. Foods and food supply, TX341-641
Abstract

The prevalence of non-communicable diseases (NCDs) has steadily increased in the United States. Health experts attribute the increasing prevalence of NCDs, in part, to the consumption of ultra-processed foods (UPFs) based on epidemiological observations. However, no definitive evidence of causality has been established. Consequently, there is an ongoing debate over whether adverse health outcomes may be due to the low nutrient density per kilocalorie, the processing techniques used during the production of UPFs, taste preference-driven overconsumption of calories, or unidentified factors. Recognizing that “the science is not settled,” we propose an investigative process in this narrative review to move the field beyond current controversies and potentially identify the basis of causality. Since many consumers depend on UPFs due to their shelf stability, affordability, availability, ease of use, and safety from pathogens, we also suggest a paradigm for guiding both the formulation of UPFs by food designers and the selection of UPFs by consumers.

Published
2024
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5. Monitoring shallow coral reef exposure to environmental stressors using satellite earth observation: the reef environmental stress exposure toolbox (RESET)

Author

Michael J. Williamson, Emma J. Tebbs, Terence P. Dawson, Henry J. Thompson, Catherine E. I. Head, and David M. P. Jacoby

Subjects
Bleaching, coral reef, environmental stress, Google Earth Engine, remote sensing, satellite, Technology, Ecology, QH540-549.5
Abstract

Abstract Coral reefs are significantly threatened by multiple environmental stressors associated with climate change. While there is growing recognition of the importance of interacting stressors on coral reefs, so far this has been primarily limited to in situ studies. Satellite remote sensing has potential for investigating coral reef exposure to multiple environmental stressors at a global scale over multiple years; however, current satellite monitoring is primarily focused on thermal stress. Here we collate nine environmental variables (cloud cover, current, depth, salinity, wind, and four sea surface temperature‐based metrics) from readily available satellite datasets using the Google Earth Engine geospatial processing platform. Using ecological and health‐based thresholds obtained from the literature, we developed, using fuzzy logic (discontinuous functions), a Reef Environmental Stress Exposure Toolbox (RESET) for monitoring environmental stress exposure at multiple scales. Stress exposure scores for 3157 reefs were generated and mapped globally across 12 coral reef ecosystem regions. RESET was also applied to three case‐study reefs, previously well monitored for stress and disturbance using other methods. PCA analysis indicated that depth, current, sea surface temperature (SST) and SST anomaly accounted for the greatest contribution to the variance in environmental stress exposure in these three regions. Depth, degree heating weeks, and SST anomaly were identified as the potential drivers of inter‐ and intra‐region variation in environmental stress exposure. Individual variables were then integrated into a multi‐metric index of combined stress exposure which corroborated temporal and spatial differences due to known disturbance events. RESET provides a open access, easily interpretable set of tools and associated indices for monitoring environmental stress exposure on coral reefs, designed to inform conservation and management decisions. As such RESET has broad potential to assist in the monitoring of our increasingly imperilled coral ecosystems, in particular, those that are remote or inaccessible.

Published
2022
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6. The role of pulses in improving human health: A review

Author

Chelsea Didinger and Henry J. Thompson

Subjects
beans, chronic disease, legumes, nutrition, public health, pulses, Plant culture, SB1-1110
Abstract

Abstract Public health concerns are discussed so frequently that it is beginning to cause desensitization. And yet, rates of chronic disease remain alarmingly high worldwide—or are even increasing. Primary prevention is essential to reverse these trends. Indeed, the sustainable implementation of good health practices can promote human physical and psychological well‐being while simultaneously being more cost‐effective than the treatment of chronic disease. A healthy dietary pattern is a cornerstone of primary prevention. Pulses, or the dry seeds of non‐oilseed legumes (e.g., chickpeas, cowpeas, dry beans, dry peas, and lentils)—also called grain legumes—are widely recognized as a nutrient‐dense food and one of the richest sources of dietary fiber and plant protein. Combined with their affordable price point and contributions to sustainable food systems, they can be considered a prime example of a superfood. Historically, they also have a rich culinary history around the world, making them culturally relevant to many cuisines and cultures. The scientific literature supports the role of pulses in many health benefits, yet the quality of the evidence is often low. In this review, we explore the findings—and limitations—of research to date and conclude with suggestions for moving the field forward to investigate and establish robust support for a recommended serving size that is most beneficial for human health.

Published
2022
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7. Bean Cuisine: The Potential of Citizen Science to Help Motivate Changes in Pulse Knowledge and Consumption

Author

Chelsea Didinger, Marisa Bunning, and Henry J. Thompson

Subjects
beans, pulses, legumes, citizen science, public health, Extension, Chemical technology, TP1-1185
Abstract

Pulses, or the dry, edible seeds of non-oilseed legumes (e.g., chickpeas, cowpeas, dry beans, dry peas, and lentils), are uniquely positioned to simultaneously benefit human and environmental well-being, all while being affordable and important to diverse cultural food traditions around the world. Despite the benefits they can provide, pulses are dramatically under-consumed. One key barrier preventing higher intake among consumers is a lack of familiarity with how to prepare and regularly incorporate pulses into meals. To address this barrier and actualize findings from our laboratory, we created the Bean Cuisine, a 2-week cuisine (i.e., meal plan) with 56 pulse-centric recipes corresponding to 14 unique breakfast, lunch, snack, and dinner ideas. Each meal category was largely interchangeable, i.e., the order of the breakfast recipes is not important, and one could be swapped for another if a different order were preferrable to a consumer. Fifty-six citizen scientists were recruited to provide feedback on the Bean Cuisine. Free response feedback related to project participation was very positive, and common themes included changes in pulse consumption and cooking behaviors, increased awareness of pulse variety and versatility, and positive perceptions of citizen science. Overall, participation in the Bean Cuisine citizen science project helped create pulse advocates, empowering participants to advance the well-being of their communities through pulses.

Published
2023
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8. Dry Bean: A Protein-Rich Superfood With Carbohydrate Characteristics That Can Close the Dietary Fiber Gap

Author

Mark A. Brick, Adrienne Kleintop, Dimas Echeverria, Sara Kammlade, Leslie A. Brick, Juan M. Osorno, Phillip McClean, and Henry J. Thompson

Subjects
soluble dietary fiber, insoluble dietary fiber, oligosaccharides, cultivar variability, dry edible bean, Plant culture, SB1-1110
Abstract

Consumer food choices are often focused on protein intake, but the chosen sources are frequently either animal-based protein that has high fat content or plant-based protein that is low in other nutrients. In either case, these protein sources often lack dietary fiber, which is a nutrient of concern in the 2020–2025 Dietary Guide for Americans. Pulse crops, such as dry edible beans (Phaseolus vulgaris L.), are a rich source of dietary protein and contain approximately equal amounts of dietary fiber per 100 kcal edible portion; yet the consumer's attention has not been directed to this important fact. If product labeling were used to draw attention to the similar ratio of dietary protein to dietary fiber in dry bean and other pulses, measures of carbohydrate quality could also be highlighted. Dietary fiber is categorized into three fractions, namely, soluble (SDF), insoluble (IDF), and oligosaccharides (OLIGO), yet nutrient composition databases, as well as food labels, usually report only crude fiber. The objectives of this research were to measure the content of SDF, IDF, and OLIGO in a large genetically diverse panel of bean cultivars and improved germplasm (n = 275) and determine the impact of growing environment on the content of DF. Dietary fiber was evaluated using the American Association of Analytical Chemist 2011.25 method on bean seed grown at two locations. Dry bean cultivars differed for all DF components (P ≤ 0.05). Insoluble dietary fiber constituted the highest portion of total DF (54.0%), followed by SDF (29.1%) and OLIGO (16.8%). Mean total DF and all components did not differ among genotypes grown in two field environments. These results indicate that value could be added to dry bean by cultivar-specific food labeling for protein and components of dietary fiber.

Published
2022
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9. Dietary Oncopharmacognosy as a Crosswalk between Precision Oncology and Precision Nutrition

Author

Henry J. Thompson, Tymofiy Lutsiv, John N. McGinley, Hisham Hussan, and Mary C. Playdon

Subjects
precision oncology, precision nutrition, bioactive food components, cancer prevention and control, diet and nutrition, dietary oncopharmacognosy, Nutrition. Foods and food supply, TX341-641
Abstract

While diet and nutrition are modifiable risk factors for many chronic and infectious diseases, their role in cancer prevention and control remains under investigation. The lack of clarity of some diet–cancer relationships reflects the ongoing debate about the relative contribution of genetic factors, environmental exposures, and replicative errors in stem cell division as determinate drivers of cancer risk. In addition, dietary guidance has often been based upon research assuming that the effects of diet and nutrition on carcinogenesis would be uniform across populations and for various tumor types arising in a specific organ, i.e., that one size fits all. Herein, we present a paradigm for investigating precision dietary patterns that leverages the approaches that led to successful small-molecule inhibitors in cancer treatment, namely understanding the pharmacokinetics and pharmacodynamics of small molecules for targeting carcinogenic mechanisms. We challenge the scientific community to refine the paradigm presented and to conduct proof-in-concept experiments that integrate existing knowledge (drug development, natural products, and the food metabolome) with developments in artificial intelligence to design and then test dietary patterns predicted to elicit drug-like effects on target tissues for cancer prevention and control. We refer to this precision approach as dietary oncopharmacognosy and envision it as the crosswalk between the currently defined fields of precision oncology and precision nutrition with the goal of reducing cancer deaths.

Published
2023
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10. Consumption of Common Bean Suppresses the Obesogenic Increase in Adipose Depot Mass: Impact of Dose and Biological Sex

Author

Henry J. Thompson, Tymofiy Lutsiv, John N. McGinley, Vanessa K. Fitzgerald, and Elizabeth S. Neil

Subjects
adipose tissue, anti-obesogenic activity, obesity prevention, biological sex effects, common bean, pulses, Nutrition. Foods and food supply, TX341-641
Abstract

Obesity prevention is stated as a simple objective in the public health guidelines of most countries: avoid adult weight gain. However, the success of the global population in accomplishing this goal is limited as reflected in the persisting pandemic of overweight and obesity. While many intervention strategies have been proposed, most are directed at mitigating the consequences of obesity. Efforts intended to prevent unintentional weight gain and associated adiposity are termed anti-obesogenic. Herein, evidence is presented that a neglected category of foods, pulses, i.e., grain legumes, have anti-obesogenic activity. Using a preclinical mouse model of obesity, a dose–response study design in animals of both biological sexes, and cooked, freeze-dried, and milled common bean as a representative pulse, data are presented showing that the rate of body weight gain is slowed, and fat accumulation is suppressed when 70% of the dietary protein is provided from common bean. These anti-obesogenic effects are reduced at lower amounts of common bean (17.5% or 35%). The anti-obesogenic responsiveness is greater in female than in male mice. RNA sequence analysis indicates that the sex-related differences extend to gene expression patterns, particularly those related to immune regulation within adipose tissue. In addition, our findings indicate the potential value of a precision nutrition approach for human intervention studies that identify “pulse anti-obesogenic responders”. A precision approach may reduce the concentration of pulses required in the diet for benefits, but candidate biomarkers of responsivity to pulse consumption remain to be determined.

Published
2023
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11. Natural Products in Precision Oncology: Plant-Based Small Molecule Inhibitors of Protein Kinases for Cancer Chemoprevention

Author

Henry J. Thompson and Tymofiy Lutsiv

Subjects
cancer kinome, chemoprevention, natural products, small molecule inhibitors, precision oncology, Nutrition. Foods and food supply, TX341-641
Abstract

Striking progress is being made in cancer treatment by using small molecule inhibitors of specific protein kinases that are products of genes recognized as drivers for a specific type of cancer. However, the cost of newly developed drugs is high, and these pharmaceuticals are neither affordable nor accessible in most parts of the world. Accordingly, this narrative review aims to probe how these recent successes in cancer treatment can be reverse-engineered into affordable and accessible approaches for the global community. This challenge is addressed through the lens of cancer chemoprevention, defined as using pharmacological agents of natural or synthetic origin to impede, arrest, or reverse carcinogenesis at any stage in the disease process. In this regard, prevention refers to reducing cancer-related deaths. Recognizing the clinical successes and limitations of protein kinase inhibitor treatment strategies, the disciplines of pharmacognosy and chemotaxonomy are juxtaposed with current efforts to exploit the cancer kinome to describe a conceptual framework for developing a natural product-based approach for precision oncology.

Published
2023
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12. Thwarting Metabolic Dysfunction-Associated Fatty Liver Disease (MAFLD) with Common Bean: Dose- and Sex-Dependent Protection against Hepatic Steatosis

Author

Tymofiy Lutsiv, John N. McGinley, Elizabeth S. Neil, Michelle T. Foster, and Henry J. Thompson

Subjects
hepatic steatosis, fatty liver disease, non-alcoholic fatty liver disease, metabolic dysfunction-associated fatty liver disease, common bean, pulses, Nutrition. Foods and food supply, TX341-641
Abstract

Hepatic steatosis signifies onset of metabolic dysfunction-associated fatty liver disease (MAFLD) caused by disrupted metabolic homeostasis compromising liver function. Regular consumption of common beans reduces the risk of metabolic impairment, but its effective dose, the impact of biological sex, and underlying mechanisms of action are unknown. We fed female and male C57BL6/J mice with obesogenic yet isocaloric diets containing 0%, 17.5%, 35%, and 70% of total dietary protein derived from cooked whole common beans. Liver tissue was collected for histopathology, lipid quantification, and RNA-seq analyses. Beans qualitatively and quantitatively diminished hepatic fat deposition at the 35% dose in female and 70% dose in male mice. Bean-induced differentially expressed genes (DEGs) most significantly mapped to hepatic steatosis and revealed dose-responsive inhibition of de novo lipogenesis markers (Acly, Acaca, Fasn, Elovl6, Scd1, etc.) and triacylglycerol biosynthesis, activation of triacylglycerol degradation, and downregulation of sterol regulatory element-binding transcription factor 1 (SREBF1) signaling. Upregulated fatty acid β-oxidation was more prominent in females, while suppression of Cd36-mediated fatty acid uptake—in males. Sex-dependent bean effects also involved DEGs patterns downstream of peroxisome proliferator-activated receptor α (PPARα) and MLX-interacting protein-like (MLXIPL). Therefore, biological sex determines amount of common bean in the diet required to prevent hepatic lipid accumulation.

Published
2023
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13. A Randomized, Double-Blind, Placebo-Controlled Investigation of Selenium Supplementation in Women at Elevated Risk for Breast Cancer: Lessons for Re-Emergent Interest in Selenium and Cancer

Author

Henry J. Thompson, Scot M. Sedlacek, Vanessa K. Fitzgerald, Pamela Wolfe, and John N. McGinley

Subjects
breast cancer, chemoprevention, selenium, high selenium yeast, antioxidant, oxidative damage, Biology (General), QH301-705.5
Abstract

Damage to cellular macromolecules such as DNA and lipid, induced via reactive oxygen species, and indicators of cell proliferation potential such as insulin-like growth factor (IGF) metabolic status are intermediate biomarkers of breast cancer risk. Based on reports that selenium status can affect these markers, a randomized, placebo-controlled, double-blind experiment was conducted to investigate the potential of selenium supplementation to modulate breast cancer risk. Using a placebo tablet or a tablet containing 200 μg selenium provided as high-selenium yeast daily for one year, concentrations of the biomarkers in blood or urine were assessed at baseline and after 6 and 12 months of intervention. The selenium intervention used in this study is presumed to mediate its effect via the induction of glutathione peroxidase activity and the consequential impact of the active form of this protein on oxidative damage. We found no evidence to support this hypothesis or to indicate that systemic IGF metabolic status was affected. Critical knowledge gaps must be addressed for the resurgence of interest in selenium and cancer to garner clinical relevance. Those knowledge gaps include the identification of a specific, high-affinity selenium metabolite and the cellular target(s) to which it binds, and the demonstration that the cellular determinant that the selenium metabolite binds plays a critical role in the initiation, promotion, or progression of a specific type of cancer.

Published
2022
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14. Relandscaping the Gut Microbiota with a Whole Food: Dose–Response Effects to Common Bean

Author

Tymofiy Lutsiv, John N. McGinley, Elizabeth S. Neil-McDonald, Tiffany L. Weir, Michelle T. Foster, and Henry J. Thompson

Subjects
common bean, microbiome, gut microbiota, cecal microbiota, microbiota accessible carbohydrates, biological sex, Chemical technology, TP1-1185
Abstract

Underconsumption of dietary fiber and the milieu of chemicals with which it is associated is a health concern linked to the increasing global burden of chronic diseases. The benefits of fiber are partially attributed to modulation of the gut microbiota, whose composition and function depend on the amount and quality of microbiota-accessible substrates in the diet. However, not all types of fiber are equally accessible to the gut microbiota. Phaseolus vulgaris L., or common bean, is a food type rich in fiber as well as other prebiotics posing a great potential to positively impact diet-microbiota-host interactions. To elucidate the magnitude of bean’s effects on the gut microbiota, increasing doses of common bean were administered in macronutrient-matched diet formulations. The microbial communities in the ceca of female and male mice were evaluated via 16S rRNA gene sequencing. As the bean dose increased, the Bacillota:Bacteroidota ratio (formerly referred to as the Firmicutes:Bacteroidetes ratio) was reduced and α-diversity decreased, whereas the community composition was distinctly different between the diet groups according to β-diversity. These effects were more pronounced in female mice compared to male mice. Compositional analyses identified a dose-responsive bean-induced shift in microbial composition. With an increasing bean dose, Rikenellaceae, Bacteroides, and RF39, which are associated with health benefits, were enhanced. More taxa, however, were suppressed, among which were Allobaculum, Oscillospira, Dorea, and Ruminococcus, which are predominantly associated with chronic disease risk. Investigation of the origins of the dose dependent and biological sex differences in response to common bean consumption may provide insights into bean-gut microbiota-host interactions important to developing food-based precision approaches to chronic disease prevention and control.

Published
2022
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15. Pre-Clinical Insights into the Iron and Breast Cancer Hypothesis

Author

Henry J. Thompson, Elizabeth S. Neil, and John N. McGinley

Subjects
iron, breast cancer, oxidative damage, Biology (General), QH301-705.5
Abstract

Population studies, systematic reviews, and meta-analyses have revealed no relationship between iron status and breast cancer, a weak positive association, or a small protective effect of low iron status. However, in those studies, the authors concluded that further investigation was merited. The set of experiments reported here used preclinical models to assess the likely value of further investigation. The effects of iron status on the initiation and promotion stage of mammary carcinogenesis are reported. Using the classical model of cancer initiation in the mammary gland, 7,12 dimethyl-benz[α]anthracene-induced carcinogenesis was unaffected by iron status. Similarly, excess iron intake showed no effect on the promotion stage of 1-methyl-1-nitrosurea-induced mammary carcinogenesis, though iron deficiency exerted a specific inhibitory effect on the carcinogenic process. Though iron-mediated cellular oxidation is frequently cited as a potential mechanism for effects on breast cancer, no evidence of increased oxidative damage to DNA attributable to excess iron intake was found. The reported preclinical data fail to provide convincing evidence that the further evaluation of the iron–breast cancer risk hypotheses is warranted and underscore the value of redefining the referent group in population-based studies of iron–cancer hypotheses in other tissues.

Published
2021
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16. Compositional Changes of the High-Fat Diet-Induced Gut Microbiota upon Consumption of Common Pulses

Author

Tymofiy Lutsiv, Tiffany L. Weir, John N. McGinley, Elizabeth S. Neil, Yuren Wei, and Henry J. Thompson

Subjects
lentil, chickpea, dry pea, common bean, pulses, high-fat diet, Nutrition. Foods and food supply, TX341-641
Abstract

The gut microbiome is involved in the host’s metabolism, development, and immunity, which translates to measurable impacts on disease risk and overall health. Emerging evidence supports pulses, i.e., grain legumes, as underutilized nutrient-dense, culinarily versatile, and sustainable staple foods that promote health benefits through modulating the gut microbiota. Herein, the effects of pulse consumption on microbial composition in the cecal content of mice were assessed. Male mice were fed an obesogenic diet formulation with or without 35% of the protein component comprised by each of four commonly consumed pulses—lentil (Lens culinaris L.), chickpea (Cicer arietinum L.), common bean (Phaseolus vulgaris L.), or dry pea (Pisum sativum L.). Mice consuming pulses had distinct microbial communities from animals on the pulse-free diet, as evidenced by β-diversity ordinations. At the phylum level, animals consuming pulses showed an increase in Bacteroidetes and decreases in Proteobacteria and Firmicutes. Furthermore, α-diversity was significantly higher in pulse-fed animals. An ecosystem of the common bacteria that were enhanced, suppressed, or unaffected by most of the pulses was identified. These compositional changes are accompanied by shifts in predicted metagenome functions and are concurrent with previously reported anti-obesogenic physiologic outcomes, suggestive of microbiota-associated benefits of pulse consumption.

Published
2021
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18. Measuring Dietary Botanical Diversity as a Proxy for Phytochemical Exposure

Author

Henry J. Thompson, Jack O. Levitt, John N. McGinley, Paulette Chandler, Patricia M. Guenther, Inge Huybrechts, and Mary C. Playdon

Subjects
botanical diversity, chronic disease risk, gut microbiome, metagenomics, metabolomics, dietary pattern, Nutrition. Foods and food supply, TX341-641
Abstract

The study of natural plant molecules and their medicinal properties, pharmacognosy, provides a taxonomy for botanical families that represent diverse chemical groupings with potentially distinct functions in relation to human health. Yet, this reservoir of knowledge has not been systematically applied to elucidating the role of patterns of plant food consumption on gut microbial ecology and function. All chemical classes of dietary phytochemicals can affect the composition of the microbes that colonize the gut and their function. In turn, the gut microbiome affects the host via multiple mechanisms including gut barrier function, immune function, satiety and taste regulation and the activity of biological signaling pathways that influence health and disease. Herein, we report the development of a botanical diversity index (BDI) to evaluate plant food consumption as a novel metric for identifying and quantifying phytochemicals to which an individual is exposed. A rationale is advanced for using the BDI to investigate how plant food diversity impacts gut microbial ecology and functionality.

Published
2021
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19. Defining Nutritional and Functional Niches of Legumes: A Call for Clarity to Distinguish a Future Role for Pulses in the Dietary Guidelines for Americans

Author

Chelsea Didinger and Henry J. Thompson

Subjects
legumes, pulses, dietary fiber, Dietary Guidelines for Americans, oilseed legumes, nutrition, Nutrition. Foods and food supply, TX341-641
Abstract

Legume food crops can contribute to the solution of diet-related public health challenges. The rich diversity of the botanical family Fabaceae (Leguminosae) allows legumes to fill numerous nutritional niches. Pulses (i.e., a subgroup of legumes including chickpeas, cowpeas, dry beans, dry peas, and lentils) are a nutrient-dense food that could play a key role in eliminating the dramatic underconsumption of dietary fiber and potassium, two dietary components of public health concern, all while maintaining a caloric intake that promotes a healthy weight status. However, incorrect use of terminology—in the commercial and scientific literature as well as in publications and materials prepared for the consuming public—creates confusion and represents a barrier to dissemination of clear dietary guideline messaging. The use of accurate terminology and a simple classification scheme can promote public health through differentiation among types of legumes, better informing the development and implementation of nutritional policies and allowing health care professionals and the public to capitalize on the health benefits associated with different legumes. Although inconsistent grouping of legumes exists across countries, the recently released 2020–2025 Dietary Guidelines for Americans (DGA) were chosen to illustrate potential challenges faced and areas for clarification. In the 2020–2025 DGA, pulses are included in two food groups: the protein food group and ‘beans, peas, lentils’ vegetable subgroup. To evaluate the potential of pulses to contribute to intake of key dietary components within calorie recommendations, we compared 100 kilocalorie edible portions of pulses versus other foods. These comparisons demonstrate the unique nutritional profile of pulses and the opportunity afforded by this type of legume to address public health concerns, which can be greatly advanced by reducing confusion through global harmonization of terminology.

Published
2021
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21. It Is Really Simple: Foods and Human Health, The Whole Story

Author

Henry J. Thompson

Subjects
Western diet, metabolic disease, microbiome, inflammation, additives, acellular nutrients, Nutrition. Foods and food supply, TX341-641
Abstract

Evidence continues to emerge that the gut-associated microbiome plays a central role in mediating the effects of diet on human health. A recent review of this field published in Nutrients, “The Western Diet-Microbiome-Host Interaction and Its Role in Metabolic Disease”, advances several dimensions of the diet–gut microbiome interaction that have received limited investigation. The intent of this editorial is to focus attention on components of processed foods, the consumption of which may alter the gut-associated microbiome in a manner that accounts for impacts on the immunity–inflammation axis that underlie the pathogenesis of obesity associated metabolic diseases. While examination of the issues that the authors articulate will take time, they unveil a simple fact—eating whole foods is an achievable path to health now. In saving this important observation until the end of their review, Zinöcker and Lindseth missed an opportunity to promote an important research strategy: use whole foods as the positive control in discerning those aspects of food processing that are detrimental versus being without effect.

Published
2020
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22. Pulse Crop Effects on Gut Microbial Populations, Intestinal Function, and Adiposity in a Mouse Model of Diet-Induced Obesity

Author

John N. McGinley, Vanessa K. Fitzgerald, Elizabeth S. Neil, Heather M. Omerigic, Adam L. Heuberger, Tiffany L. Weir, Rebecca McGee, George Vandemark, and Henry J. Thompson

Subjects
adiposity, akkermansia muciniphila, bacteriodetes, chickpea, common bean, dry pea, firmicutes, intestinal function, lentil, pulses, Nutrition. Foods and food supply, TX341-641
Abstract

The dietary fiber gap that is present in many countries co-exists with a low intake of grain legumes (pulses) that have 2−3 times more dietary fiber than cereal grains that are commonly recommended to increase fiber intake. Given the relationships among dietary fiber, gut health and chronic disease risk, a study was undertaken in a preclinical mouse model for obesity to examine how commonly consumed pulses, i.e., chickpea, common bean, dry pea and lentil, would impact gut microbes, intestinal function, and adiposity. Pulses were fed to C57BL/6 mice at similar levels of protein and fiber. Bacterial count in the cecum was elevated 3-fold by pulse consumption. At the phylum level, a 2.2- to 5-fold increase in Bacteriodetes relative to Firmicutes was observed. For Akkermansia muciniphila, a health-beneficial bacterium, differential effects were detected among pulses ranging from no effect to a 49-fold increase. Significant differences among pulses in biomarkers of intestinal function were not observed. Pulses reduced accumulation of lipid in adipose tissue with a greater reduction in the subcutaneous versus visceral depots. Metabolomics analysis indicated that 108 metabolites were highly different among pulse types, and several compounds are hypothesized to influence the microbiome. These results support recent recommendations to increase consumption of pulse-based foods for improved health, although all pulses were not equal in their effects.

Published
2020
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23. Genetic Architecture of Dietary Fiber and Oligosaccharide Content in a Middle American Panel of Edible Dry Bean

Author

Samira Mafi Moghaddam, Mark A. Brick, Dimas Echeverria, Henry J. Thompson, Leslie A. Brick, Rian Lee, Sujan Mamidi, and Phillip E. McClean

Subjects
Plant culture, SB1-1110, Genetics, QH426-470
Abstract

Common bean ( L.) is the most consumed edible grain legume worldwide and contains a wide range of nutrients for human health including dietary fiber. Diets high in beans are associated with lower rates of chronic diseases such as obesity and type 2 diabetes, and the content of dietary fibers varies among different market classes of dry bean. In this study, we evaluated the dietary fiber content in a Middle American diversity panel (MDP) of common bean and evaluated the genetic architecture of the various dietary fiber components. The dietary fiber components included insoluble and soluble dietary fibers as well as the antinutritional raffinose family of oligosaccharides (RFOs; raffinose, stachyose, and verbascose). All variables measured differed among market classes and entries. Colored bean seeds had higher levels of insoluble dietary fibers with the black market class showing also the highest raffinose and stachyose content. Cultivars and lines released since 1997 had higher insoluble dietary fibers and RFO content in race Durango. Higher levels of RFOs were also observed in cultivars with type II growth habit that was a recent breeding target in Durango race germplasm. Candidate genes for dietary fiber traits, especially homologs to two main genes in the RFO biosynthesis pathway, were identified. The knowledge of diversity of dietary fibers in the MDP accompanied with the identification of candidate genes could effectively improve dietary fiber components in common bean.

Published
2018
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24. Impact of Weight Loss on Plasma Leptin and Adiponectin in Overweight-to-Obese Post Menopausal Breast Cancer Survivors

Author

Henry J. Thompson, Scot M. Sedlacek, Pamela Wolfe, Devchand Paul, Susan G. Lakoski, Mary C. Playdon, John N. McGinley, and Shawna B. Matthews

Subjects
adiponectin, body composition, breast cancer survivors, dietary pattern, leptin, weight loss, Nutrition. Foods and food supply, TX341-641
Abstract

Women who are obese at the time of breast cancer diagnosis have higher overall mortality than normal weight women and some evidence implicates adiponectin and leptin as contributing to prognostic disadvantage. While intentional weight loss is thought to improve prognosis, its impact on these adipokines is unclear. This study compared the pattern of change in plasma leptin and adiponectin in overweight-to-obese post-menopausal breast cancer survivors during weight loss. Given the controversies about what dietary pattern is most appropriate for breast cancer control and regulation of adipokine metabolism, the effect of a low fat versus a low carbohydrate pattern was evaluated using a non-randomized, controlled study design. Anthropometric data and fasted plasma were obtained monthly during the six-month weight loss intervention. While leptin was associated with fat mass, adiponectin was not, and the lack of correlation between leptin and adiponectin concentrations throughout weight loss implies independent mechanisms of regulation. The temporal pattern of change in leptin but not adiponectin was affected by magnitude of weight loss. Dietary pattern was without effect on either adipokine. Mechanisms not directly related to dietary pattern, weight loss, or fat mass appear to play dominant roles in the regulation of circulating levels of these adipokines.

Published
2015
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25. White Kidney Bean (Phaseolus Vulgaris L.) Consumption Reduces Fat Accumulation in a Polygenic Mouse Model of Obesity

Author

Elizabeth S. Neil, John N. McGinley, Vanessa K. Fitzgerald, Corey A. Lauck, Jeremy A. Tabke, Madyson R. Streeter-McDonald, Linxing Yao, Corey D. Broeckling, Tiffany L. Weir, Michelle T. Foster, and Henry J. Thompson

Subjects
phaseolus vulgaris, white kidney bean, adiposity, obesity, gut health, akkermansia muciniphila, firmicutes to bacteroidetes ratio, bile acids, farnesoid x receptor, Nutrition. Foods and food supply, TX341-641
Abstract

Clinical studies indicate that eating common bean, Phaseolus vulgaris L., plays a role in body weight regulation but mechanisms have yet to be elucidated. Here, we investigated the anti-obesogenic activity of white kidney bean in a mouse model of dietary-induced obesity. Bean consumption reduced the accumulation of adipose tissue in male and female C57BL6 mice. The anti-obesogenic effect of white kidney bean was not due to alterations in energy intake, energy excreted in the feces, or feed efficiency ratio. While bean consumption increased the mass of the intestine, no marked differences were consistently observed in crypt height, mucin content of goblet cells, proliferation index or zone of proliferation. However, significantly higher concentrations of total bacteria and of Akkermansia muciniphila were detected in cecal content of bean-fed mice, and the ratio of Firmicutes to Bacteroidetes was reduced. Bile acid content was higher in the ileum of bean-fed mice, but transcript levels of farnesoid X receptor were not significantly affected. Whether changes in bile-acid-mediated cell signaling play a role in bean-related differences in fat accumulation and/or overall metabolic health requires further investigation.

Published
2019
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26. Improving the Health Benefits of Snap Bean: Genome-Wide Association Studies of Total Phenolic Content

Author

James R. Myers, Lyle T. Wallace, Samira Mafi Moghaddam, Adrienne E. Kleintop, Dimas Echeverria, Henry J. Thompson, Mark A. Brick, Rian Lee, and Phillip E. McClean

Subjects
common bean, phaseolus vulgaris, flavonoids, association mapping, total phenolic compounds, genome wide association mapping, Nutrition. Foods and food supply, TX341-641
Abstract

Snap beans are a significant source of micronutrients in the human diet. Among the micronutrients present in snap beans are phenolic compounds with known beneficial effects on human health, potentially via their metabolism by the gut-associated microbiome. The genetic pathways leading to the production of phenolics in snap bean pods remain uncertain. In this study, we quantified the level of total phenolic content (TPC) in the Bean Coordinated Agriculture Program (CAP) snap bean diversity panel of 149 accessions. The panel was characterized spectrophotometrically for phenolic content with a Folin−Ciocalteu colorimetric assay. Flower, seed and pod color were also quantified, as red, purple, yellow and brown colors are associated with anthocyanins and flavonols in common bean. Genotyping was performed through an Illumina Infinium Genechip BARCBEAN6K_3 single nucleotide polymorphism (SNP) array. Genome-Wide Association Studies (GWAS) analysis identified 11 quantitative trait nucleotides (QTN) associated with TPC. An SNP was identified for TPC on Pv07 located near the P gene, which is a major switch in the flavonoid biosynthetic pathway. Candidate genes were identified for seven of the 11 TPC QTN. Five regulatory genes were identified and represent novel sources of variation for exploitation in developing snap beans with higher phenolic levels for greater health benefits to the consumer.

Published
2019
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27. Cell Signaling Pathways in Mammary Carcinoma Induced in Rats with Low versus High Inherent Aerobic Capacity

Author

Tymofiy Lutsiv, John N. McGinley, Elizabeth S. Neil, and Henry J. Thompson

Subjects
cell signaling, mammary cancer, inherent aerobic capacity, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

An inverse association exists between physical activity and breast cancer incidence and outcomes. An objective indicator of an individual’s recent physical activity exposure is aerobic capacity. We took advantage of the fact that there is an inherited as well as inducible component of aerobic capacity to show that experimentally induced mammary cancer is inversely related to inherent aerobic capacity (IAC). The objective of this study was to determine whether cell signaling pathways involved in the development of mammary cancer differed in rats with low inherent aerobic capacity (LIAC, n = 55) versus high inherent aerobic capacity (HIAC, n = 57). Cancer burden was 0.21 ± 0.16 g/rat in HIAC versus 1.14 ± 0.45 in LIAC, p < 0.001. Based on protein expression, cancer in LIAC animals was associated with upregulated glucose utilization, and protein and fatty acid synthesis. Signaling in cancers from HIAC rats was associated with energy sensing, fatty acid oxidation and cell cycle arrest. These findings support the thesis that pro-glycolytic, metabolic inflexibility in LIAC favors not only insulin resistance and obesity but also tumor development and growth. This provides an unappreciated framework for understanding how obesity and low aerobic fitness, hallmarks of physical inactivity, are associated with higher cancer risk and poorer prognosis.

Published
2019
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28. Beneficial Effects of Common Bean on Adiposity and Lipid Metabolism

Author

Henry J. Thompson, John N. McGinley, Elizabeth S. Neil, and Mark A. Brick

Subjects
pulse crops, bean, adiposity, fatty acid oxidation, Nutrition. Foods and food supply, TX341-641
Abstract

In developed countries which are at the epicenter of the obesity pandemic, pulse crop consumption is well below recommended levels. In a recent systematic review and meta-analysis of 21 randomized controlled clinical trials, pulse consumption was associated with improved weight control and reduced adiposity, although the underlying mechanisms were a matter of speculation. Common bean (Phaseolus vulgaris L.) is the most widely consumed pulse crop and was the focus of this investigation. Using outbred genetic models of dietary induced obesity resistance and of dietary induced obesity sensitivity in the rat, the impact of bean consumption was investigated on the efficiency with which consumed food was converted to body mass (food efficiency ratio), body fat accumulation, adipocyte morphometrics, and patterns of protein expression associated with lipid metabolism. Cooked whole bean as well as a commercially prepared cooked bean powders were evaluated. While bean consumption did not affect food efficiency ratio, bean reduced visceral adiposity and adipocyte size in both obesity sensitive and resistant rats. In liver, bean consumption increased carnitine palmitoyl transferase 1, which is the rate limiting step in long chain fatty acid oxidation and also resulted in lower levels of circulating triglycerides. Collectively, our results are consistent with the clinical finding that pulse consumption is anti-obesogenic and indicate that one mechanism by which cooked bean exerts its bioactivity is oxidation of long chain fatty acids.

Published
2017
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29. Dietary Fiber Analysis of Four Pulses Using AOAC 2011.25: Implications for Human Health

Author

Yiran Chen, Rebecca McGee, George Vandemark, Mark Brick, and Henry J. Thompson

Subjects
dietary fiber, pulse crops, dietary fiber gap, common bean, chickpeas, dry peas, lentils, AOAC 2011.25, Nutrition. Foods and food supply, TX341-641
Abstract

Chickpeas, common beans, dry peas, and lentils are pulse crops that have been a cornerstone of the human diet since the inception of agriculture. However, the displacement of pulses from the diet by low fiber protein alternatives has resulted in a pervasive deficiency referred to as the dietary fiber gap. Using an analytical method American Association of Analytical Chemists (AOAC) 2011.25 that conforms to the Codex Alimentarius Commission consensus definition for dietary fiber, the fiber content of these pulse crops was evaluated in seed types used for commercial production. These pulse crops have 2 to 3 times more fiber per 100 g edible portion than other dietary staples. Moreover, there is marked variation in fiber content among cultivars of the same crop. We conclude that pulse crop consumption should be emphasized in efforts to close the dietary fiber gap. The substantial differences in fiber content among currently available cultivars within a crop can be used to further improve gains in fiber intake without the need to change dietary habits. This provides a rationale for cultivar-based food labeling.

Published
2016
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30. The Obesity-Breast Cancer Conundrum: An Analysis of the Issues

Author

Shawna B. Matthews and Henry J. Thompson

Subjects
breast cancer, obesity, mechanisms, preclinical models, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Breast cancer develops over a timeframe of 2–3 decades prior to clinical detection. Given this prolonged latency, it is somewhat unexpected from a biological perspective that obesity has no effect or reduces the risk for breast cancer in premenopausal women yet increases the risk for breast cancer in postmenopausal women. This conundrum is particularly striking in light of the generally negative effects of obesity on breast cancer outcomes, including larger tumor size at diagnosis and poorer prognosis in both pre- and postmenopausal women. This review and analysis identifies factors that may contribute to this apparent conundrum, issues that merit further investigation, and characteristics of preclinical models for breast cancer and obesity that should be considered if animal models are used to deconstruct the conundrum.

Published
2016
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31. Premenopausal Obesity and Breast Cancer Growth Rates in a Rodent Model

Author

Shawna B. Matthews, John N. McGinley, Elizabeth S. Neil, and Henry J. Thompson

Subjects
apoptosis, breast cancer, cell proliferation, obesity, premenopausal, tumor growth, Nutrition. Foods and food supply, TX341-641
Abstract

Obese premenopausal women with breast cancer have poorer prognosis for long term survival, in part because their tumors are larger at the time of diagnosis than are found in normal weight women. Whether larger tumor mass is due to obesity-related barriers to detection or to effects on tumor biology is not known. This study used polygenic models for obesity and breast cancer to deconstruct this question with the objective of determining whether cell autonomous mechanisms contribute to the link between obesity and breast cancer burden. Assessment of the growth rates of 259 chemically induced mammary carcinomas from rats sensitive to dietary induced obesity (DS) and of 143 carcinomas from rats resistant (DR) to dietary induced obesity revealed that tumors in DS rats grew 1.8 times faster than in DR rats. This difference may be attributed to alterations in cell cycle machinery that permit more rapid tumor cell accumulation. DS tumors displayed protein expression patterns consistent with reduced G1/S checkpoint inhibition and a higher threshold of factors required for execution of the apoptotic cell death pathway. These mechanistic insights identify regulatory targets for life style modifications or pharmacological interventions designed to disrupt the linkage between obesity and tumor burden.

Published
2016
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32. A transfer-less, multi-well liquid culture feeding system for screening small molecules that affect the longevity of Caenorhabditis elegans

Author

Vanessa K. Fitzgerald, Meghan M. Mensack, Pamela Wolfe, and Henry J. Thompson

Subjects
C. elegans, screening, crops, longevity, extracts, right censor, Biology (General), QH301-705.5
Abstract

Agricultural sciences rely almost entirely on chemical assays to screen the thousands of crop cultivars generated in a crop improvement program for potential human health benefits. This situation exists in part because most animal models are expensive to implement, utilize large amounts of plant material, and require specialized facilities and technical training. A cost-effective, high-throughput animal model to screen crop extracts for small molecules with biological activity related to human health benefits would provide a much-needed resource. Here we introduce a new, relatively high-throughput method incorporating the microscopic Caenorhabditis elegans nematode, which is suitable for screening chemical extracts for bioactivity without the need for robotics. This system was chosen because longevity extension in C. elegans has been previously associated with human health benefits. Through the use of cell culture inserts, C. elegans can be exposed to fresh crop extracts daily throughout their lifespan without mechanical manipulation of the worm, thus minimizing stress and creating an environment suitable for experiments measuring longevity. Additionally, the duration of longevity experiments can be reduced by using type II right censoring in experimental design and survival analyses.

Published
2009
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33. The impact of surgical weight loss procedures on the risk of metachronous colorectal neoplasia: the differential effect of surgery type, sex, and anatomic location

Author

Hisham Hussan, Mohamed R Ali, Shehnaz K Hussain, Victoria Lyo, Eric McLaughlin, ChienWei Chiang, and Henry J Thompson

Subjects
Cancer Research, Oncology
Abstract

Patients with prior colorectal polyps are at high risk for metachronous colorectal neoplasia, especially in the presence of obesity. We assessed the impact of 2 common bariatric surgeries, vertical sleeve gastrectomy and roux-n-Y gastric bypass, on the risk of colorectal neoplasia recurrence. This nationally representative analysis included 1183 postbariatric adults and 3193 propensity score–matched controls, who all had prior colonoscopy with polyps and polypectomy. Colorectal polyps reoccurred in 63.8% of bariatric surgery patients and 71.7% of controls at a mean follow-up of 53.1 months from prior colonoscopy. There was a reduced odds of colorectal polyp recurrence after bariatric surgery compared with controls (odds ratio [OR] = 0.70, 95% confidence interval [CI] = 0.58 to 0.83). This effect was most pronounced in men (OR = 0.58, 95% CI = 0.42 to 0.79), and post roux-n-Y gastric bypass (OR = 0.57, 95% CI = 0.41 to 0.79). However, the risk of rectal polyps or colorectal cancer remained consistent between groups. This study is the first to our knowledge to show a reduction in risk of polyp recurrence following bariatric surgery.

Published
2023

34. Data from Weight Cycling and Cancer: Weighing the Evidence of Intermittent Caloric Restriction and Cancer Risk

Author

Anne McTiernan and Henry J. Thompson

Abstract

Overweight and obese individuals frequently restrict caloric intake to lose weight. The resultant weight loss, however, typically is followed by an equal or greater weight gain, a phenomenon called weight cycling. Most attention to weight cycling has focused on identifying its detrimental effects, but preclinical experiments indicating that intermittent caloric restriction or fasting can reduce cancer risk have raised interest in potential benefits of weight cycling. Although hypothesized adverse effects of weight cycling on energy metabolism remain largely unsubstantiated, there is also a lack of epidemiologic evidence that intentional weight loss followed by regain of weight affects chronic-disease risk. In the limited studies of weight cycling and cancer, no independent effect on postmenopausal breast cancer but a modest enhancement of risk for renal cell carcinoma, endometrial cancer, and non-Hodgkin's lymphoma have been reported. An effect of either intermittent caloric restriction or fasting in protecting against cancer is not supported by the majority of rodent carcinogenesis experiments. Collectively, the data argue against weight cycling and indicate that the objective of energy balance–based approaches to reduce cancer risk should be to strive to prevent adult weight gain and maintain body weight within the normal range defined by body mass index. Cancer Prev Res; 4(11); 1736–42. ©2011 AACR.

Published
2023

40. Data from Mammary Gland Density Predicts the Cancer Inhibitory Activity of the N-3 to N-6 Ratio of Dietary Fat

Author

Henry J. Thompson, Andrea Manni, Karam El Bayoumy, John P. Richie, Bogden Prokopczyk, John N. McGinley, Weiqin Jiang, and Zongjian Zhu

Abstract

This study investigated the effect of a broad range of dietary ratios of n-3:n-6 fatty acids on mammary gland density and mammary cancer risk. Cancer was induced in female rats by N-methyl-N-nitrosourea. Purified diet that provided 30% of dietary kilocalories from fat was formulated to contain ratios of n-3:n-6 fatty acids from 25:1 to 1:25. Mammary gland density was determined by digital analysis, fatty acids by gas chromatography/flame ionization detection, and other plasma analytes via ELISA. Mammary gland density was reduced dose dependently at n-3:n-6 ratios from 1:1 to 25:1 (r = −0.477, P = 0.038), with a 20.3% decrease of mammary gland density between n-3:n-6 of 1:1 versus 25:1, P < 0.001. Mammary carcinogenesis was inhibited in the absence or presence of tamoxifen (1 mg/kg diet) in a manner predicted by mammary gland density. Plasma n-3 fatty acid concentrations failed to increase above an n-3:n-6 ratio of 5:1, and changes in specific plasma n-3 or n-6 fatty acids were not predictive of mammary gland density or cancer inhibitory activity. A strong reciprocal effect of the n-3:n-6 ratio on plasma leptin (decreased, P = 0.005) and adiponectin (increased, P < 0.001) was observed indicating adipose tissue function was modulated. However, neither cytokine was predictive of mammary gland density. Plasma insulin-like growth factor I (IGF-I) decreased with increasing dietary n-3:n-6 ratio (P = 0.004) and was predictive of the changes in mammary gland density (r = 0.362, P < 0.005). These findings indicate that (i) mammary gland density predicted the carcinogenic response, (ii) the n-3:n-6 ratio exerts effects in the presence or absence of hormonal regulation of carcinogenesis, and (iii) signaling pathways regulated by IGF-I are potential targets for further mechanistic investigation. Cancer Prev Res; 4(10); 1675–85. ©2011 AACR.

Published
2023

41. Data from Effects of Energy Restriction and Wheel Running on Mammary Carcinogenesis and Host Systemic Factors in a Rat Model

Author

Henry J. Thompson, John N. McGinley, Elizabeth S. Neil, Jarrod H. Zacher, Weiqin Jiang, and Zongjian Zhu

Abstract

Limiting energy availability via diet or physical activity has health benefits; however, it is not known whether these interventions have similar effects on the development of cancer. Two questions were addressed as follows: (i) Does limiting energy availability by increasing physical activity have the same effect on mammary carcinogenesis as limiting caloric intake? and (ii) Are host systemic factors, implicated as risk biomarkers for breast cancer, similarly affected by these interventions? Female Sprague Dawley rats were injected with 50-mg 1-methyl-1-nitrosourea per kg body weight at 21 days of age and randomized to one of five groups (30 rats per group) as follows: (i) sham running wheel control; (ii) restricted fed to 85% of the sham control; (iii and iv) voluntary running in a motorized activity wheel (37 m/min) to a maximum of 3,500 m/d or 1,750 m/d; and (v) sedentary ad libitum fed control with no access to a running wheel. The three energetics interventions inhibited the carcinogenic response, reducing cancer incidence (P = 0.01), cancer multiplicity (P < 0.001), and cancer burden (P < 0.001) whereas prolonging cancer latency (P = 0.004) although differences among energetics interventions were not significant. Of the plasma biomarkers associated with the development of cancer, the energetics interventions reduced bioavailable insulin-like growth factor-1 (IGF-1), insulin, interleukin-6, serum amyloid protein, TNF-α, and leptin and increased IGF-binding protein 3 (IGFBP-3) and adiponectin. Plasma-fasting glucose, C-reactive protein, estradiol, and progesterone were unaffected. The plasma biomarkers of greatest value in predicting the carcinogenic response were adiponectin > IGF-1/IGFBP-3 > IGFBP-3 > leptin > IGF-1. Cancer Prev Res; 5(3); 414–22. ©2012 AACR.

Published
2023

43. Supplemental Table 2 from Influence of Obesity on Breast Density Reduction by Omega-3 Fatty Acids: Evidence from a Randomized Clinical Trial

Author

Andrea Manni, Karam El-Bayoumy, Laurence M. Demers, Cesar Aliaga, Neil Trushin, Ana Calcagnotto, Christopher Hamilton, Carina Signori, Cynthia DuBrock, Bogdan Prokopczyk, Henry J. Thompson, John McGinley, John P. Richie, Terryl J. Hartman, Jason Liao, Susann E. Schetter, and Narinder Sandhu

Abstract

Correlation between baseline demographics and percent versus absolute breast density with and without adjustment for BMI.

Published
2023

45. Supplemental Table 4 from Influence of Obesity on Breast Density Reduction by Omega-3 Fatty Acids: Evidence from a Randomized Clinical Trial

Author

Andrea Manni, Karam El-Bayoumy, Laurence M. Demers, Cesar Aliaga, Neil Trushin, Ana Calcagnotto, Christopher Hamilton, Carina Signori, Cynthia DuBrock, Bogdan Prokopczyk, Henry J. Thompson, John McGinley, John P. Richie, Terryl J. Hartman, Jason Liao, Susann E. Schetter, and Narinder Sandhu

Abstract

Effects of Raloxifene and/or Lovaza on Relative Plasma Fatty Acid Concentration.

Published
2023

46. Supplemental Table 3 from Influence of Obesity on Breast Density Reduction by Omega-3 Fatty Acids: Evidence from a Randomized Clinical Trial

Author

Andrea Manni, Karam El-Bayoumy, Laurence M. Demers, Cesar Aliaga, Neil Trushin, Ana Calcagnotto, Christopher Hamilton, Carina Signori, Cynthia DuBrock, Bogdan Prokopczyk, Henry J. Thompson, John McGinley, John P. Richie, Terryl J. Hartman, Jason Liao, Susann E. Schetter, and Narinder Sandhu

Abstract

Effects of Raloxifene and/or Lovaza on Absolute Plasma Fatty Acid Concentration.

Published
2023

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