Your search keyword '"Sandra L. Rodriguez-Zas"' showing total 295 results

1. Disruption of Alternative Splicing in the Amygdala of Pigs Exposed to Maternal Immune Activation

Author

Bruce R. Southey, Marissa R. Keever-Keigher, Haley E. Rymut, Laurie A. Rund, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

alternative splicing, maternal immune activation, weaning stress, sex, neurodevelopmental disorder, Medicine

Abstract

The inflammatory response of gestating females to infection or stress can disrupt gene expression in the offspring’s amygdala, resulting in lasting neurodevelopmental, physiological, and behavioral disorders. The effects of maternal immune activation (MIA) can be impacted by the offspring’s sex and exposure to additional stressors later in life. The objectives of this study were to investigate the disruption of alternative splicing patterns associated with MIA in the offspring’s amygdala and characterize this disruption in the context of the second stress of weaning and sex. Differential alternative splicing was tested on the RNA-seq profiles of a pig model of viral-induced MIA. Compared to controls, MIA was associated with the differential alternative splicing (FDR-adjusted p-value < 0.1) of 292 and 240 genes in weaned females and males, respectively, whereas 132 and 176 genes were differentially spliced in control nursed female and male, respectively. The majority of the differentially spliced (FDR-adjusted p-value < 0.001) genes (e.g., SHANK1, ZNF672, KCNA6) and many associated enriched pathways (e.g., Fc gamma R-mediated phagocytosis, non-alcoholic fatty liver disease, and cGMP-PKG signaling) have been reported in MIA-related disorders including autism and schizophrenia in humans. Differential alternative splicing associated with MIA was detected in the gene MAG across all sex-stress groups except for unstressed males and SLC2A11 across all groups except unstressed females. Precise understanding of the effect of MIA across second stressors and sexes necessitates the consideration of splicing isoform profiles.

Published

2021

2. Influence of Maternal Immune Activation and Stressors on the Hippocampal Metabolome

Author

Bruce R. Southey, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

metabolite, metabolomics, hippocampus, gas chromatography, mass spectrometry, maternal immune activation, Microbiology, QR1-502

Abstract

Prenatal stress often results in maternal immune activation (MIA) that can impact prenatal brain development, molecular processes, and substrates and products of metabolism that participate in physiological processes at later stages of life. Postnatal metabolic and immunological stressors can affect brain metabolites later in life, independently or in combination with prenatal stressors. The effects of prenatal and postnatal stressors on hippocampal metabolites were studied using a pig model of viral MIA exposed to immunological and metabolic stressors at 60 days of age using gas chromatography mass spectrometry. Postnatal stress and MIA elicited effects (FDR-adjusted p-value < 0.1) on fifty-nine metabolites, while eight metabolites exhibited an interaction effect. The hippocampal metabolites impacted by MIA or postnatal stress include 4-aminobutanoate (GABA), adenine, fumarate, glutamate, guanine, inosine, ornithine, putrescine, pyruvate, and xanthine. Metabolites affected by MIA or postnatal stress encompassed eight significantly (FDR-adjusted p-value < 0.1) enriched Kyoto Encyclopedia of Genes and Genomes Database (KEGG) pathways. The enriched arginine biosynthesis and glutathione metabolism pathways included metabolites that are also annotated for the urea cycle and polyamine biosynthesis pathways. Notably, the prenatal and postnatal challenges were associated with disruption of the glutathione metabolism pathway and changes in the levels of glutamic acid, glutamate, and purine nucleotide metabolites that resemble patterns elicited by drugs of abuse and may underlie neuroinflammatory processes. The combination of MIA and postnatal stressors also supported the double-hit hypothesis, where MIA amplifies the impact of stressors later in life, sensitizing the hippocampus of the offspring to future challenges. The metabolites and pathways characterized in this study offer evidence of the role of immunometabolism in understanding the impact of MIA and stressors later in life on memory, spatial navigation, neuropsychiatric disorders, and behavioral disorders influenced by the hippocampus.

Published

2023

3. Limited Impacts of Cover Cropping on Soil N-Cycling Microbial Communities of Long-Term Corn Monocultures

Author

Nakian Kim, Chance W. Riggins, María C. Zabaloy, Sandra L. Rodriguez-Zas, and María B. Villamil

Subjects

N cycle genes, nosZ, amoA, nifH, nirK, nirS, Microbiology, QR1-502

Abstract

Cover cropping (CC) is a promising in-field practice to mitigate soil health degradation and nitrogen (N) losses from excessive N fertilization. Soil N-cycling microbial communities are the fundamental drivers of these processes, but how they respond to CC under field conditions is poorly documented for typical agricultural systems. Our objective was to investigate this relationship for a long-term (36 years) corn [Zea mays L.] monocultures under three N fertilizer rates (N0, N202, and N269; kg N/ha), where a mixture of cereal rye [Secale cereale L.] and hairy vetch [Vicia villosa Roth.] was introduced for two consecutive years, using winter fallows as controls (BF). A 3 × 2 split-plot arrangement of N rates and CC treatments in a randomized complete block design with three replications was deployed. Soil chemical and physical properties and potential nitrification (PNR) and denitrification (PDR) rates were measured along with functional genes, including nifH, archaeal and bacterial amoA, nirK, nirS, and nosZ-I, sequenced in Illumina MiSeq system and quantified in high-throughput quantitative polymerase chain reaction (qPCR). The abundances of nifH, archaeal amoA, and nirS decreased with N fertilization (by 7.9, 4.8, and 38.9 times, respectively), and correlated positively with soil pH. Bacterial amoA increased by 2.4 times with CC within N269 and correlated positively with soil nitrate. CC increased the abundance of nirK by 1.5 times when fertilized. For both bacterial amoA and nirK, N202 and N269 did not differ from N0 within BF. Treatments had no significant effects on nosZ-I. The reported changes did not translate into differences in functionality as PNR and PDR did not respond to treatments. These results suggested that N fertilization disrupts the soil N-cycling communities of this system primarily through soil acidification and high nutrient availability. Two years of CC may not be enough to change the N-cycling communities that adapted to decades of disruption from N fertilization in corn monoculture. This is valuable primary information to understand the potentials and limitations of CC when introduced into long-term agricultural systems.

Published

2022

4. Effects of maternal immune activation in porcine transcript isoforms of neuropeptide and receptor genes

Author

Bruce R. Southey, Pan Zhang, Marissa R. Keever, Haley E. Rymut, Rodney W. Johnson, Jonathan V. Sweedler, and Sandra L. Rodriguez-Zas

Subjects

maternal immune activation, neuropeptide, autism, alternative splicing, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The prolonged effects of maternal immune activation in response stressors during gestation on the offspring’s molecular pathways after birth are beginning to be understood. An association between maternal immune activation and neurodevelopmental and behavior disorders such as autism and schizophrenia spectrum disorders has been detected in long-term gene dysregulation. The incidence of alternative splicing among neuropeptides and neuropeptide receptor genes, critical cell-cell signaling molecules, associated with behavior may compromise the replicability of reported maternal immune activation effects at the gene level. This study aims to advance the understanding of the effect of maternal immune activation on transcript isoforms of the neuropeptide system (including neuropeptide, receptor and connecting pathway genes) underlying behavior disorders later in life. Recognizing the wide range of bioactive peptides and functional receptors stemming from alternative splicing, we studied the effects of maternal immune activation at the transcript isoform level on the hippocampus and amygdala of three-week-old pigs exposed to maternal immune activation due to viral infection during gestation. In the hippocampus and amygdala, 29 and 9 transcript isoforms, respectively, had maternal immune activation effects (P-value < 0.01). We demonstrated that the study of the effect of maternal immune activation on neuropeptide systems at the isoform level is necessary to expose opposite effects among transcript isoforms from the same gene. Genes were maternal immune activation effects have also been associated with neurodevelopmental and behavior disorders. The characterization of maternal immune activation effects at the transcript isoform level advances the understanding of neurodevelopmental disorders and identifies precise therapeutic targets.

Published

2021

5. Adherence to a priori-Defined Diet Quality Indices Throughout the Early Disease Course Is Associated With Survival in Head and Neck Cancer Survivors: An Application Involving Marginal Structural Models

Author

Christian A. Maino Vieytes, Sandra L. Rodriguez-Zas, Zeynep Madak-Erdogan, Rebecca L. Smith, Katie R. Zarins, Gregory T. Wolf, Laura S. Rozek, Alison M. Mondul, and Anna E. Arthur

Subjects

nutritional epidemiology, marginal structural model, cancer, diet quality, survivorship, Nutrition. Foods and food supply, TX341-641

Abstract

No studies, to date, have scrutinized the role of a priori dietary patterns on prognosis following a head and neck squamous cell carcinoma (HNSCC) diagnosis. The purpose of this analysis was to evaluate the associations between adherence to six a priori defined diet quality indices (including AHEI-2010, aMED, DASH, and three low-carbohydrate indices) throughout the first 3 years of observation and all-cause and cancer-specific mortalities in 468 newly diagnosed HNSCC patients from the University of Michigan Head and Neck Specialized Program of Research Excellence (UM-SPORE). The dietary intake data were measured using a food frequency questionnaire administered at three annual time points commencing at study entry. Deaths and their causes were documented throughout the study using various data sources. Marginal structural Cox proportional hazards models were used to evaluate the role of diet quality, as a time-varying covariate, on mortality. There were 93 deaths from all causes and 74 cancer-related deaths adjudicated throughout the observation period. There was a strong inverse association between adherence to the AHEI-2010, all-cause mortality (HRQ5–Q1:0.07, 95% CI:0.01–0.43, ptrend:0.04), and cancer-specific mortality (HRQ5–Q1:0.15, 95% CI:0.02–1.07, ptrend:0.04). Other more modest associations were noted for the low-carbohydrate indices. In sum, higher adherence to the AHEI-2010 and a plant-based low-carbohydrate index throughout the first 3 years since diagnosis may bolster survival and prognosis in newly diagnosed patients with HNSCC.

Published

2022

6. A Longitudinal Study of the Microbial Basis of Nitrous Oxide Emissions Within a Long-Term Agricultural Experiment

Author

Gevan D. Behnke, Nakian Kim, Chance W. Riggins, María C. Zabaloy, Sandra L. Rodriguez-Zas, and María B. Villamil

Subjects

nitrous oxide, denitrification, no-till, corn, soybean, ammonia oxidizing archaea, Agriculture, Plant culture, SB1-1110

Abstract

Much of the global nitrous oxide emissions are derived from agricultural management driving microbial N transformations. Crop rotation, no-till, and cover cropping are feasible conservation agronomic strategies used to prevent N losses to the environment, though their effect on soil microbial N cycling at the field scale remains relatively unknown. Our goal was to determine the effect of crop rotation (continuous corn [Zea mays L.], CCC; and continuous soybean [Glycine max (L.) Merr.], SSS), tillage (no-till, NT; and chisel tillage, T), and cover crops (cover crop mixture, CC; and no cover crop, NCC) on the quantification of functional genes related to the N cycle from different times throughout the growing season. The study was conducted during the growing season of the cash crops following the first season of cover crops introduced after 23 years of management. Using quantitative polymerase chain reaction (qPCR) techniques, we quantified nifH (N2 fixation), amoA (nitrification) and nirK, nirS, and nosZ (denitrification). Our results show that CCC increased nitrous oxide emissions by 44% compared to SSS and reduced soil pH by nearly 1 unit. The reduction in soil pH, coupled with an increase in fertilizer-derived ammonium, caused ammonia-oxidizing bacteria (AOB) and nirK copy numbers to increase. The SSS rotation showed opposite results. Bacterial denitrification via the nirK pathway was likely the N cycle mechanism behind nitrous oxide emissions in CCC. The cover crop mixture of cereal rye [Secale cereale L.] and hairy vetch [Vicia villosa Roth] reduced soil nitrate levels, though they did increase nitrous oxide emissions, likely due to priming and the inclusion of a legume in the cover crop mixture. Nitrous oxide emissions were affected by sampling date, crop rotation, and cover crop use, suggesting management factors that add abundantly available N alter the microbial N cycle directly or indirectly. Chisel tillage increased the abundance of all N cycle genes compared to no-till. Together, our work adds further insight into the microbial N cycle, especially nitrous oxide evolution, from three common conservation agricultural management practices, contributing to our understanding of key soil biogeochemical processes.

Published

2022

7. Prepartum dietary energy intake alters adipose tissue transcriptome profiles during the periparturient period in Holstein dairy cows

Author

Andrea Minuti, Massimo Bionaz, Vincenzo Lopreiato, Nicole A. Janovick, Sandra L. Rodriguez-Zas, James K. Drackley, and Juan J. Loor

Subjects

Periparturient cow, Prepartum overfeeding, Subcutaneous adipose tissue, Transcriptome, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background The aim of the study was to investigate the effect of energy overfeeding during the dry period on adipose tissue transcriptome profiles during the periparturient period in dairy cows. Methods Fourteen primiparous Holstein cows from a larger cohort receiving a higher-energy diet (1.62 Mcal of net energy for lactation/kg of dry matter; 15% crude protein) for ad libitum intake to supply 150% (OVR) or 100% (CTR) of energy requirements from dry off until parturition were used. After calving, all cows received the same lactation diet. Subcutaneous adipose tissue (SAT) biopsies were collected at − 14, 1, and 14 d from parturition (d) and used for transcriptome profiling using a bovine oligonucleotide microarray. Data mining of differentially expressed genes (DEG) between treatments and due to sampling time was performed using the Dynamic Impact Approach (DIA) and Ingenuity Pathway Analysis (IPA). Results There was a strong effect of over-feeding energy on DEG with 2434 (False discovery rate-corrected P

Published

2020

8. Impact of Weaning and Maternal Immune Activation on the Metabolism of Pigs

Author

Bruce R. Southey, Courtni R. Bolt, Haley E. Rymut, Marissa R. Keever, Alexander V. Ulanov, Zhong Li, Laurie A. Rund, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

gas chromatography, mass spectrometry, maternal immune activation, weaning, hepatic metabolomics stress, Biology (General), QH301-705.5

Abstract

Weaning wields environmental, social, and nutritional stresses that are detectable in the blood metabolite levels of the offspring. Prenatal stress in the form of maternal immune activation (MIA) in response to infection, which is associated with health and behavior disorders, also elicits prolonged changes in blood and brain cytokine and metabolite levels of the offspring. The goal of this study was to investigate the effects of weaning and MIA on the offspring’s liver function to advance the understanding of the impact of stressors on peripheral and central nervous systems, physiology, and health. Gas chromatography–mass spectrometry analysis was used to compare the level of hepatic metabolites from 22-day-old pigs (n = 48) evenly distributed among weaning (nursed or weaned), viral MIA exposure (yes or no), and sexes. Weaning effects were detected on 38 metabolites at p-value < 0.05 (28 metabolites at FDR p-value < 0.05), and sex-dependent MIA effects were detected on 11 metabolites. Multiple intermediate and final products of the enriched (FDR p-value < 0.05) glycolysis and gluconeogenesis and pentose phosphate pathways were over-abundant in nursed relative to weaned pigs. The enriched pathways confirm the impact of weaning on hepatic metabolic shift, oxidative stress, and inflammation. Higher levels of the glucogenic amino acid histidine are observed in pigs exposed to MIA relative to controls, suggesting that the role of this metabolite in modulating inflammation may supersede the role of this amino acid as an energy source. The lower levels of cholesterol detected in MIA pigs are consistent with hypocholesterolemia profiles detected in individuals with MIA-related behavior disorders. Our findings underline the impact of weaning and MIA stressors on hepatic metabolites that can influence peripheral and central nervous system metabolic products associated with health and behavior disorders.

Published

2021

9. Miscanthus Grass as a Novel Functional Fiber Source in Extruded Feline Diets

Author

Shannon E. Finet, Bruce R. Southey, Sandra L. Rodriguez-Zas, Fei He, and Maria R. C. de Godoy

Subjects

cats, dietary fiber, fecal microbiota, Miscanthus grass, nutrient digestibility, post-biotics, Veterinary medicine, SF600-1100

Abstract

Although dietary fiber is not considered an essential nutrient in a complete and balanced diet for felines, it provides a substrate for fermentation by gut microbiota, thus promoting gastrointestinal health through the production of fermentative metabolites, as well as improving laxation. The aim of this research was to evaluate the novel fiber source, Miscanthus grass (Miscanthus giganteus), in comparison with traditional fiber sources and their effects on fecal quality, apparent total tract digestibility (ATTD), fecal fermentative end products, and microbiota of healthy adult cats. Four dietary treatments were evaluated, differing in dietary fiber source. The diets were formulated to meet or exceed the AAFCO (2018) nutritional profile for adult cats and contained either cellulose (CO), Miscanthus grass fiber (MF), a blend of Miscanthus fiber and tomato pomace (MF + TP), or beet pulp (BP). The study was conducted using a completely randomized design with 28 neutered adult, domesticated shorthair cats (19 females and 9 males, mean age 2.2 ± 0.03 years; mean body weight 4.6 ± 0.7 kg, mean body condition score 5.6 ± 0.6). The experimental period comprised 21 days, and a fresh fecal and a total fecal collection were performed during the last 4 days of the trial period. Daily food intake (DM basis) was similar across all groups (P > 0.05). Additionally, treatment did not affect fecal output (as-is or DM basis), fecal score, or fecal pH (P > 0.05). Cats fed BP had significantly higher total dietary fiber ATTD than all the other treatments (P < 0.05) and the highest concentrations of total short-chain fatty acid, acetate, and propionate (P < 0.05), while butyrate concentrations were similar for all treatments (P > 0.05). Inclusion of dietary fibers was effective in modulating gut microbiota. Cats fed diets containing Miscanthus grass had greater α-diversity than cats fed BP. As no adverse effects on health, fecal quality, or ATTD of macronutrients were observed with the inclusion of 9% Miscanthus grass fiber or fiber blend, the data suggest that Miscanthus grass fiber and fiber blends are viable alternatives to the traditional dietary fiber sources used in commercial extruded feline diets, being most comparable to cellulose.

Published

2021

10. Use of Legumes and Yeast as Novel Dietary Protein Sources in Extruded Canine Diets

Author

Lauren M. Reilly, Fei He, Sandra L. Rodriguez-Zas, Bruce R. Southey, Jolene M. Hoke, Gary M. Davenport, and Maria R. C. de Godoy

Subjects

dog, digestibility, legume, microbiota, pulse, yeast, Veterinary medicine, SF600-1100

Abstract

The popularity of plant-based protein sources has increased as consumer demand for grain-free and novel protein sources increase. Minimal research has been conducted as regards to use of legumes and yeast and their effects on acceptability and digestibility in canine diets. The objective of this study was to evaluate macronutrient apparent total tract digestibility (ATTD), gastrointestinal tolerance, and fermentative end-products in extruded, canine diets. Five diets were formulated to be isocaloric and isonitrogenous with either garbanzo beans (GBD), green lentils (GLD), peanut flour (PFD), dried yeast (DYD), or poultry by-product meal (CON) as the primary protein sources. Ten adult, intact, female beagles (mean age: 4.2 ± 1.1 yr, mean weight: 11.9 ± 1.3 kg) were used in a replicated, 5 × 5 Latin square design with 14 d periods. Each experimental period consisted of 10 d of diet adaptation, followed by 4 d of total fecal and urine collection. A fasted, 5 ml blood sample was collected at the end of each period and analyzed for serum metabolites and complete blood count. Serum metabolites were within normal ranges and all dogs remained healthy throughout the study. Fecal quality, evaluated on a 5-point scale, was considered ideal. Macronutrient ATTD was similar among dietary treatments, with diets highly digestible (>80%). Total fecal branched-chain fatty acid concentrations were highest (P < 0.05) for DYD (23.4 μmol/g) than GLD (16.1 μmol/g) and PFD (16.0 μmol/g) but not different (P > 0.05) than other treatments. The plant-based protein treatments had greater (P < 0.05) total fecal short chain fatty acid (SCFA) concentrations (average 627.6 μmol/g) compared with CON (381.1 μmol/g). Fecal butyrate concentration was highest (P < 0.05) for DYD than all other dietary treatments (103.9 μmol/g vs. average 46.2 μmol/g). Fecal microbial communities showed Firmicutes, Bacteroidetes, Fusobacteria, and Proteobacteria as abundant phyla. There was greater β-diversity for dogs fed DYD which differed from all other diets in both weighted and unweighted UNIFRAC analyses. Inclusion of these novel, plant-based, protein sources showed no detrimental effects on nutrient digestibility or fecal characteristics and represent viable protein sources in canine diets that can produce beneficial shifts in fecal metabolites.

Published

2021

11. White and Red Sorghum as Primary Carbohydrate Sources in Extruded Diets of Felines

Author

Patrick von Schaumburg, Fei He, Sandra L. Rodriguez-Zas, Bruce R. Southey, C. M. Parsons, and Maria R. C. de Godoy

Subjects

carbohydrate, felines, gut health, microbiota, sorghum, nutrient digestibility, Veterinary medicine, SF600-1100

Abstract

The research objectives were to evaluate the effect of dietary supplementation of white (WSH) and red (RSH) sorghum grains on gastrointestinal health of felines through the determination of apparent total tract macronutrient digestibility (ATTD), fecal characteristics, fermentative end-products, and microbiota, compared with a traditional corn-based diet. We hypothesize that inclusion of RSH and WSH, respectively, would be well-accepted by cats, and the RSH and WSH diets would be comparable to corn when added as the main carbohydrate source in extruded diets. Three diets containing 30% corn, 30% WSH, or 30% RSH were formulated to meet or exceed the AAFCO (2018) nutrient profiles for cats during growth. Nine male cats (0.8 ± 0.00 yr) were randomly assigned to one of the three dietary treatments using a triplicated 3 × 3 Latin square design. Experimental periods consisted of 14 d (10 d of diet adaption and 4 d of total and fresh fecal collections). The ATTD of dry matter (DM) did not differ amongst treatments, organic matter was greatest (P < 0.05) for both sorghum diets (86.4%) and lowest for the corn diet (84.2%), crude protein was comparable among diets ranging from 84.5 to 86.6%, acid hydrolyzed fat was high among diets varying between 91.4 and 92.8%, and total dietary fiber was greatest (P < 0.05) for the WSH diet (56.0%) with the corn diet being lowest (44.7%). Digestible energy was greatest (P < 0.05) for the WSH diet (4.66 kcal/g) and lowest for the corn diet (4.54 kcal/g), with the RSH diet being intermediate (4.64; P > 0.05). Fecal pH (6.3–6.5) and most fecal metabolites did not differ among diets except for phenol/indole concentrations that were significantly lower (P < 0.05) in cats fed the RSH diet (1.5 μmole/g DM) than for cats fed the corn diet (2.1 μmole/g DM). Bacteroidetes, Firmicutes, Fusobacteria, and Proteobacteria were the major phyla observed in the microbiota of feces of cats fed the three experimental diets, with no differences seen amongst all treatments. Data indicate that dietary supplementation of these varieties of WSH and RSH as carbohydrate sources were well-tolerated by the cat.

Published

2021

12. Changes in Neuropeptide Prohormone Genes among Cetartiodactyla Livestock and Wild Species Associated with Evolution and Domestication

Author

Bruce R. Southey and Sandra L. Rodriguez-Zas

Subjects

neuropeptide, prohormone, domestication, Cetartiodactyla, evolution, Veterinary medicine, SF600-1100

Abstract

The impact of evolution and domestication processes on the sequences of neuropeptide prohormone genes that participate in cell–cell signaling influences multiple biological process that involve neuropeptide signaling. This information is important to understand the physiological differences between Cetartiodactyla domesticated species such as cow, pig, and llama and wild species such as hippopotamus, giraffes, and whales. Systematic analysis of changes associated with evolutionary and domestication forces in neuropeptide prohormone protein sequences that are processed into neuropeptides was undertaken. The genomes from 118 Cetartiodactyla genomes representing 22 families were mined for 98 neuropeptide prohormone genes. Compared to other Cetartiodactyla suborders, Ruminantia preserved PYY2 and lost RLN1. Changes in GNRH2, IAPP, INSL6, POMC, PRLH, and TAC4 protein sequences could result in the loss of some bioactive neuropeptides in some families. An evolutionary model suggested that most neuropeptide prohormone genes disfavor sequence changes that incorporate large and hydrophobic amino acids. A compelling finding was that differences between domestic and wild species are associated with the molecular system underlying ‘fight or flight’ responses. Overall, the results demonstrate the importance of simultaneously comparing the neuropeptide prohormone gene complement from close and distant-related species. These findings broaden the foundation for empirical studies about the function of the neuropeptidome associated with health, behavior, and food production.

Published

2022

13. High-Resolution Indicators of Soil Microbial Responses to N Fertilization and Cover Cropping in Corn Monocultures

Author

Nakian Kim, Chance W. Riggins, María C. Zabaloy, Marco Allegrini, Sandra L. Rodriguez-Zas, and María B. Villamil

Subjects

bioinformatics, nitrogen cycling, soil microbiota, maize, nitrate leaching, nitrous oxide emission, Agriculture

Abstract

Cover cropping (CC) is the most promising in-field practice to improve soil health and mitigate N losses from fertilizer use. Although the soil microbiota play essential roles in soil health, their response to CC has not been well characterized by bioindicators of high taxonomic resolution within typical agricultural systems. Our objective was to fill this knowledge gap with genus-level indicators for corn [Zea mays L.] monocultures with three N fertilizer rates (N0, N202, N269; kg N ha−1), after introducing a CC mixture of cereal rye [Secale cereale L.] and hairy vetch [Vicia villosa Roth.], using winter fallows (BF) as controls. A 3 × 2 split-plot arrangement of N rates and CC treatments was studied in a randomized complete block design with three replicates over two years. Bacterial and archaeal 16S rRNA and fungal ITS regions were sequenced with Illumina MiSeq system. Overall, our high-resolution bioindicators were able to represent specific functional or ecological shifts within the microbial community. The abundances of indicators representing acidophiles, nitrifiers, and denitrifiers increased with N fertilization, while those of heterotrophic nitrifiers, nitrite oxidizers, and complete denitrifiers increased with N0. Introducing CC decreased soil nitrate levels by up to 50% across N rates, and CC biomass increased by 73% with N fertilization. CC promoted indicators of diverse functions and niches, including N-fixers, nitrite reducers, and mycorrhizae, while only two N-cycling genera were associated with BF. Thus, CC can enhance the soil biodiversity of simplified cropping systems and reduce nitrate leaching, but might increase the risk of nitrous oxide emission without proper nutrient management. This primary information is the first of its kind in this system and provided valuable insights into the limits and potential of CC as a strategy to improve soil health.

Published

2022

14. Alternative Splicing of Neuropeptide Prohormone and Receptor Genes Associated with Pain Sensitivity Was Detected with Zero-Inflated Models

Author

Bruce R. Southey and Sandra L. Rodriguez-Zas

Subjects

migraine, nitroglycerin, transcript isoform, trigeminal ganglia, nucleus accumbens, alternative splicing, Biology (General), QH301-705.5

Abstract

Migraine is often accompanied by exacerbated sensitivity to stimuli and pain associated with alternative splicing of genes in signaling pathways. Complementary analyses of alternative splicing of neuropeptide prohormone and receptor genes involved in cell–cell communication in the trigeminal ganglia and nucleus accumbens regions of mice presenting nitroglycerin-elicited hypersensitivity and control mice were conducted. De novo sequence assembly detected 540 isoforms from 168 neuropeptide prohormone and receptor genes. A zero-inflated negative binomial model that accommodates for potential excess of zero isoform counts enabled the detection of 27, 202, and 12 differentially expressed isoforms associated with hypersensitivity, regions, and the interaction between hypersensitivity and regions, respectively. Skipped exons and alternative 3′ splice sites were the most frequent splicing events detected in the genes studied. Significant differential splicing associated with hypersensitivity was identified in CALCA and VGF neuropeptide prohormone genes and ADCYAP1R1, CRHR2, and IGF1R neuropeptide receptor genes. The prevalent region effect on differential isoform levels (202 isoforms) and alternative splicing (82 events) were consistent with the distinct splicing known to differentiate central nervous structures. Our findings highlight the changes in alternative splicing in neuropeptide prohormone and receptor genes associated with hypersensitivity to pain and the necessity to target isoform profiles for enhanced understanding and treatment of associated disorders such as migraine.

Published

2022

15. Long-Lasting Impact of Maternal Immune Activation and Interaction With a Second Immune Challenge on Pig Behavior

Author

Haley E. Rymut, Courtni R. Bolt, Megan P. Caputo, Alexandra K. Houser, Adrienne M. Antonson, Jalisa D. Zimmerman, Maria B. Villamil, Bruce R. Southey, Laurie A. Rund, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

porcine reproductive and respiratory syndrome, Poly(I:C), maternal immune activation, sickness behavior, locomotor, Veterinary medicine, SF600-1100

Abstract

The combined effects on pig behavior of maternal immune challenge during gestation followed by a second immune challenge later in life have not been studied. Porcine reproductive and respiratory syndrome virus (PRRSV) infection during gestation can elicit maternal immune activation (MIA) yet the interactions with the offspring response to a second immune challenge after birth remains unexplored. Knowledge on the response to viral challenges in rodents has been gained through the use of the viral mimetic polyinosinic-polycytidylic acid (Poly(I:C)), yet the effects of this immune stimulant on pig behavior have not been assessed. This study advances the understanding of the combined effect of MIA and a second immune challenge later in life on female and male pig behavior. Three complementary experiments enabled the development of an effective Poly(I:C) challenge in pigs, and testing the interaction between PRRSV-elicited MIA, Poly(I:C) challenge at 60 days of age, and sex on behaviors. Individual-level observations on sickness, locomotor, and social behaviors were measured 1–3 h after Poly(I:C) challenge. Vomiting, panting, lethargy, walking, laying, playing, and touching behaviors were analyzed using generalized linear mixed effect models. Results indicated that a Poly(I:C) dose of 1 mg/kg within 1 h after injection increased the incidence of laying and sickness behavior. The Poly(I:C) challenge decreased the incidence of locomotor behaviors and activity levels. Pigs exposed to MIA had lower rates of social behaviors such as playing. The combined effect of PRRSV-elicited MIA and Poly(I:C) immune challenge further sensitized the pigs to behavior disruption across sexes including changes in sternal and lateral laying, walking, lethargy, and touching incidence. Notably, the effects of Poly(I:C) immune challenge alone on behaviors tended to be more extreme in males, whereas the effects of Poly(I:C) following MIA tended to be more extreme in females. Our findings demonstrate that MIA and Poly(I:C) affected behaviors, and the viral mimetic effects shortly after injection can offer insights into the prolonged effect of postnatal viral infections on feeding, social interactions and health status. Management practices that reduce the likelihood of gestational diseases and accommodate for behavioral disruptions in the offspring can minimize the impact of MIA.

Published

2020

16. Lasting and Sex-Dependent Impact of Maternal Immune Activation on Molecular Pathways of the Amygdala

Author

Marissa R. Keever, Pan Zhang, Courtni R. Bolt, Adrienne M. Antonson, Haley E. Rymut, Megan P. Caputo, Alexandra K. Houser, Alvaro G. Hernandez, Bruce R. Southey, Laurie A. Rund, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

immune activation, pigs, RNA-seq, neuropeptides, glutamatergic pathway, GABAergic pathway, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The prolonged and sex-dependent impact of maternal immune activation (MIA) during gestation on the molecular pathways of the amygdala, a brain region that influences social, emotional, and other behaviors, is only partially understood. To address this gap, we investigated the effects of viral-elicited MIA during gestation on the amygdala transcriptome of pigs, a species of high molecular and developmental homology to humans. Gene expression levels were measured using RNA-Seq on the amygdala for 3-week-old female and male offspring from MIA and control groups. Among the 403 genes that exhibited significant MIA effect, a prevalence of differentially expressed genes annotated to the neuroactive ligand–receptor pathway, glutamatergic functions, neuropeptide systems, and cilium morphogenesis were uncovered. Genes in these categories included corticotropin-releasing hormone receptor 2, glutamate metabotropic receptor 4, glycoprotein hormones, alpha polypeptide, parathyroid hormone 1 receptor, vasointestinal peptide receptor 2, neurotensin, proenkephalin, and gastrin-releasing peptide. These categories and genes have been associated with the MIA-related human neurodevelopmental disorders, including schizophrenia and autism spectrum disorders. Gene network reconstruction highlighted differential vulnerability to MIA effects between sexes. Our results advance the understanding necessary for the development of multifactorial therapies targeting immune modulation and neurochemical dysfunction that can ameliorate the effects of MIA on offspring behavior later in life.

Published

2020

17. The Combined Effect of Weaning Stress and Immune Activation during Pig Gestation on Serum Cytokine and Analyte Concentrations

Author

Haley E. Rymut, Laurie A. Rund, Courtni R. Bolt, Maria B. Villamil, Bruce R. Southey, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

bilirubin, calcium, anion gap, interleukin 2, interleukin 1 beta, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Weaning stress can elicit changes in the metabolic, hormone and immune systems of pigs and interact with prolonged disruptions stemming from maternal immune activation (MIA) during gestation. The present study advances the characterization of the combined effects of weaning stress and MIA on blood chemistry, immune and hormone indicators that inform on the health of pigs. Three-week-old female and male offspring of control gilts or gilts infected with the porcine reproductive and respiratory syndrome virus were allocated to weaned or nursed groups. The anion gap and bilirubin profiles suggest that MIA enhances tolerance to the effects of weaning stress. Interleukin 1 beta and interleukin 2 were highest among weaned MIA females, and cortisol was higher among weaned relative to nursed pigs across sexes. Canonical discriminant analysis demonstrated that weaned and nursed pigs have distinct chemistry profiles, whereas MIA and control pigs have distinct cytokine profiles. The results from this study can guide management practices that recognize the effects of the interaction between MIA and weaning stress on the performance and health of pigs.

Published

2021

18. Gene Network Dysregulation in the Trigeminal Ganglia and Nucleus Accumbens of a Model of Chronic Migraine-Associated Hyperalgesia

Author

Hyeonsoo Jeong, Laura S. Moye, Bruce R. Southey, Alvaro G. Hernandez, Isaac Dripps, Elena V. Romanova, Stanislav S. Rubakhin, Jonathan V. Sweedler, Amynah A. Pradhan, and Sandra L. Rodriguez-Zas

Subjects

hyperalgesia, migraine, RNA-seq, transcription factor, immune response, synapse processes, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The pharmacological agent nitroglycerin (NTG) elicits hyperalgesia and allodynia in mice. This model has been used to study the neurological disorder of trigeminovascular pain or migraine, a debilitating form of hyperalgesia. The present study validates hyperalgesia in an established mouse model of chronic migraine triggered by NTG and advances the understanding of the associated molecular mechanisms. The RNA-seq profiles of two nervous system regions associated with pain, the trigeminal ganglia (TG) and the nucleus accumbens (NAc), were compared in mice receiving chronic NTG treatment relative to control (CON) mice. Among the 109 genes that exhibited an NTG treatment-by-region interaction, solute carrier family 32 (GABA vesicular transporter) member 1 (Slc32a1) and preproenkephalin (Penk) exhibited reversal of expression patterns between the NTG and CON groups. Erb-b2 receptor tyrosine kinase 4 (Erbb4) and solute carrier family 1 (glial high affinity glutamate transporter) member 2 (Slc1a2) exhibited consistent differential expression between treatments across regions albeit at different magnitude. Period circadian clock 1 (Per1) was among the 165 genes that exhibited significant NTG treatment effect. Biological processes disrupted by NTG in a region-specific manner included adaptive and innate immune responses; whereas glutamatergic and dopaminergic synapses and rhythmic process were disrupted in both regions. Regulatory network reconstruction highlighted the widespread role of several transcription factors (including Snrnp70, Smad1, Pax6, Cebpa, and Smpx) among the NTG-disrupted target genes. These results advance the understanding of the molecular mechanisms of hyperalgesia that can be applied to therapies to ameliorate chronic pain and migraine.

Published

2018

19. Biochemistry and Immune Biomarkers Indicate Interacting Effects of Pre- and Postnatal Stressors in Pigs across Sexes

Author

Haley E. Rymut, Laurie A. Rund, Courtni R. Bolt, María B. Villamil, Diane E. Bender, Bruce R. Southey, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

biomarkers, cytokines, fasting, maternal immune activation, Poly(I:C), Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The effects of maternal immune activation (MIA) elicited by a prenatal stressor and postnatal metabolic or immune stressors on chemical and inflammatory biomarkers were studied in male and female pigs. Pigs exposed to MIA elicited by porcine reproductive and respiratory syndrome virus and matching controls were assigned at two months of age to fasting stress, immune stress, or a saline group. The serum levels of over 30 chemistry and immune analytes were studied. Significantly low levels of blood urea nitrogen were detected in females exposed to MIA, while the highest creatinine levels were identified in fasting females exposed to MIA. The levels of interferon gamma and interleukin 8 were highest in pigs exposed to postnatal immune challenge. The profiles suggest that MIA may sensitize pigs to postnatal stressors for some indicators while making them more tolerant of other stressors. Effectiveness of practices to ameliorate the impact of postnatal stressors on the physiology of the pig could be enhanced by considering the prenatal stress circumstances.

Published

2021

20. Complete Blood Count Analysis on Beef Cattle Exposed to Fescue Toxicity and Rumen-Protected Niacin Supplementation

Author

Gaston F. Alfaro, Sandra L. Rodriguez-Zas, Bruce R. Southey, Russell B. Muntifering, Soren P. Rodning, Wilmer J. Pacheco, and Sonia J. Moisá

Subjects

fetal programming, beef cattle, fescue toxicity, rumen-protected niacin, complete blood counts, genetic test, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Offspring born to dams genetically tested for resistance to fescue toxicity were separated in groups based on their dams’ resistance level (tolerant vs. susceptible). Rumen-protected niacin (RPN) is proposed as a potential alleviator for vasoconstriction produced by fescue toxicity. Complete blood count (CBC) analysis was utilized for detection of significant responses to treatments applied. Our objectives were as follows: (a) to analyze changes in CBC due to fescue toxicity, maternal resistance level, and RPN in growing offspring; and (b) to assess the effects of maternal resistance level when consuming endophyte-infected tall fescue seeds in addition to RPN in offspring performance. Body weight, average daily gain, or health status were not improved by RPN or the genetic test to detect fescue toxicity resistance. Typical signs of alkaloids intoxication and heat stress were noticed in offspring. Particularly, rectal temperature was greater for susceptible control heifers. Results showed that susceptible control offspring presented signs of anemia denoted by low mean corpuscular hemoglobin (MCH) and mean corpuscular volume (MCV). High levels of white blood cells (WBC) and basophils in combination to low neutrophils to lymphocytes ratio were the signs of infection or inflammation detected in the CBC analysis, especially in tolerant niacin steers. Furthermore, offspring of control heifers had a greater percentage of reticulocytes and RDW, denoting signs of anemia.

Published

2021

21. Postpartal Subclinical Endometritis Alters Transcriptome Profiles in Liver and Adipose Tissue of Dairy Cows

Author

Haji Akbar, Felipe C. Cardoso, Susanne Meier, Christopher Burke, Scott McDougall, Murray Mitchell, Caroline Walker, Sandra L. Rodriguez-Zas, Robin E. Everts, Harris A. Lewin, John R. Roche, and Juan J. Loor

Subjects

Biology (General), QH301-705.5

Published

2014

22. Bioinformatics Analysis of Transcriptome Dynamics During Growth in Angus Cattle Longissimus Muscle

Author

Sonia J. Moisá, Daniel W. Shike, Daniel E. Graugnard, Sandra L. Rodriguez-Zas, Robin E. Everts, Harris A. Lewin, Dan B. Faulkner, Larry L. Berger, and Juan J. Loor

Subjects

Biology (General), QH301-705.5

Published

2013

23. Bioinformatics and Gene Network Analyses of the Swine Mammary Gland Transcriptome during Late Gestation

Author

Wangsheng Zhao, Khuram Shahzad, Mingfeng Jiang, Daniel E. Graugnard, Sandra L. Rodriguez-Zas, Jun Luo, Juan J. Loor, and Walter L. Hurley

Subjects

Biology (General), QH301-705.5

Published

2013

24. Trans-10, cis 12-Conjugated Linoleic Acid-Induced Milk Fat Depression Is Associated with Inhibition of PPARγ Signaling and Inflammation in Murine Mammary Tissue

Author

Anil K. G. Kadegowda, M. Jawad Khan, Liliana S. Piperova, Beverly B. Teter, Sandra L. Rodriguez-Zas, Richard A. Erdman, and Juan J. Loor

Subjects

Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Exogenous trans-10, cis-12-CLA (CLA) reduces lipid synthesis in murine adipose and mammary (MG) tissues. However, genomewide alterations in MG and liver (LIV) associated with dietary CLA during lactation remain unknown. We fed mice (n=5/diet) control or control + trans-10, cis-12-CLA (37 mg/day) between d 6 and d 10 postpartum. The 35,302 annotated murine exonic evidence-based oligo (MEEBO) microarray and quantitative RT-PCR were used for transcript profiling. Milk fat concentration was 44% lower on d 10 versus d 6 due to CLA. The CLA diet resulted in differential expression of 1,496 genes. Bioinformatics analyses underscored that a major effect of CLA on MG encompassed alterations in cellular signaling pathways and phospholipid species biosynthesis. Dietary CLA induced genes related to ER stress (Xbp1), apoptosis (Bcl2), and inflammation (Orm1, Saa2, and Cp). It also induced marked inhibition of PPARγ signaling, including downregulation of Pparg and Srebf1 and several lipogenic target genes (Scd, Fasn, and Gpam). In LIV, CLA induced hepatic steatosis probably through perturbations in the mitochondrial functions and induction of ER stress. Overall, results from this study underscored the role of PPARγ signaling on mammary lipogenic target regulation. The proinflammatory effect due to CLA could be related to inhibition of PPARγ signaling.

Published

2013

25. Genome-Wide Association and Genomic Prediction for a Reproductive Index Summarizing Fertility Outcomes in U.S. Holsteins

Author

Christopher M Seabury, Johanna L Smith, Miranda L Wilson, Eric Bhattarai, Jose E P Santos, Ricardo C Chebel, Klibs N Galvão, Gustavo M Schuenemann, Rodrigo C Bicalho, Rob O Gilbert, Sandra L Rodriguez-Zas, Guilherme Rosa, William W Thatcher, and Pablo J Pinedo

Subjects

Genetics, Molecular Biology, Genetics (clinical)

Abstract

Subfertility represents one major challenge to enhancing dairy production and efficiency. Herein, we use a reproductive index (RI) expressing the predicted probability of pregnancy following artificial insemination with Illumina 778K genotypes to perform single and multi-locus genome-wide association analyses (GWAA) on 2,448 geographically diverse U.S. Holstein cows, and produce genomic heritability estimates. Moreover, we use genomic best linear unbiased prediction (GBLUP) to investigate the potential utility of the RI by performing genomic predictions with cross validation. Notably, genomic heritability estimates for the U.S. Holstein RI were moderate (h2 = 0.1654 ± 0.0317–0.2550 ± 0.0348); while single and multi-locus GWAA revealed overlapping quantitative trait loci (QTL) on BTA6 and BTA29, including known QTL for daughter pregnancy rate (DPR) and cow conception rate (CCR). Multi-locus GWAA revealed seven additional QTL, including one on BTA7 (60 Mb) which is adjacent to a known heifer conception rate (HCR) QTL (59 Mb). Positional candidate genes for the detected QTL included male and female fertility loci (i.e., spermatogenesis, oogenesis), meiotic and mitotic regulators, and genes associated with immune response, milk yield, enhanced pregnancy rates, and the reproductive-longevity pathway. Based on the proportion of phenotypic variance explained (PVE), all detected QTL (n = 13; P ≤ 5e-05) were estimated to have moderate (1.0% < PVE ≤ 2.0%) or small effects (PVE ≤ 1.0%) on the predicted probability of pregnancy. Genomic prediction using GBLUP with cross validation (k = 3) produced mean predictive abilities (0.1692–0.2301) and mean genomic prediction accuracies (0.4119–0.4557) that were similar to bovine health and production traits previously investigated.

Published

2023

26. Black Mothers in Racially Segregated Neighborhoods Embodying Structural Violence: PTSD and Depressive Symptoms on the South Side of Chicago

Author

Ruby Mendenhall, Meggan J. Lee, Steven W. Cole, Rebecca Morrow, Sandra L. Rodriguez-Zas, Loren Henderson, Kedir N. Turi, and Andrew Greenlee

Subjects

Health (social science), Sociology and Political Science, Health Policy, Anthropology, Public Health, Environmental and Occupational Health

Published

2023

27. Hippocampal Changes Elicited by Metabolic and Inflammatory Stressors following Prenatal Maternal Infection

Author

Sandra L. Rodriguez-Zas, Bruce R. Southey, Haley E. Rymut, Laurie A. Rund, and Rodney W. Johnson

Subjects

cAMP, postnatal stress, networks, Genetics, Genetics (clinical)

Abstract

The hippocampus participates in spatial navigation and behavioral processes, displays molecular plasticity in response to environmental challenges, and can play a role in neuropsychiatric diseases. The combined effects of inflammatory prenatal and postnatal challenges can disrupt the hippocampal gene networks and regulatory mechanisms. Using a proven pig model of viral maternal immune activation (MIA) matched to controls and an RNA-sequencing approach, the hippocampal transcriptome was profiled on two-month-old female and male offspring assigned to fasting, mimetic viral, or saline treatments. More than 2600 genes presented single or combined effects (FDR-adjusted p-value < 0.05) of MIA, postnatal stress, or sex. Biological processes and pathways encompassing messenger cyclic adenosine 3′,5′-monophosphate (cAMP) signaling were enriched with genes including gastric inhibitory polypeptide receptor (GIPR) predominantly over-expressed in the MIA-exposed fasting males relative to groups that differed in sex, prenatal or postnatal challenge. While this pattern was amplified in fasting offspring, the postnatal inflammatory challenge appeared to cancel out the effects of the prenatal challenge. The transcription factors C-terminal binding protein 2 (CTBP2), RE1 silencing transcription factor (REST), signal transducer and activator of transcription 1 (STAT1), and SUZ12 polycomb repressive complex 2 subunit were over-represented among the genes impacted by the prenatal and postnatal factors studied. Our results indicate that one environmental challenge can influence the effect of another challenge on the hippocampal transcriptome. These findings can assist in the identification of molecular targets to ameliorate the effects of pre-and post-natal stressors on hippocampal-associated physiology and behavior.

Published

2022

28. Enhanced Prediction of Cleavage in Bovine Precursor Sequences.

Author

Allison N. Tegge, Sandra L. Rodriguez-Zas, Jonathan V. Sweedler, and Bruce R. Southey

Published

2007

29. Inference of Gene Pathways Using Gaussian Mixture Models.

Author

Younhee Ko, Chengxiang Zhai, and Sandra L. Rodriguez-Zas

Published

2007

30. Smoothing Spline Mixed Effects Modeling of Multifactorial Gene Expression Profiles.

Author

Brandon J. Smith, Bruce R. Southey, and Sandra L. Rodriguez-Zas

Published

2007

31. Prefrontal Cortex Response to Prenatal Insult and Postnatal Opioid Exposure

Author

Haley E. Rymut, Laurie A. Rund, Bruce R. Southey, Rodney W. Johnson, Jonathan V. Sweedler, and Sandra L. Rodriguez-Zas

Subjects

Inflammation, Male, Morphine Derivatives, Swine, Prefrontal Cortex, Vitamins, RNA-seq, opioid, infection, pathways, Analgesics, Opioid, Pregnancy, Prenatal Exposure Delayed Effects, Genetics, Animals, Humans, Female, Genetics (clinical)

Abstract

The influence of proinflammatory challenges, such as maternal immune activation (MIA) or postnatal exposure to drugs of abuse, on brain molecular pathways has been reported. On the other hand, the simultaneous effects of MIA and drugs of abuse have been less studied and sometimes offered inconsistent results. The effects of morphine exposure on a pig model of viral-elicited MIA were characterized in the prefrontal cortex of males and females using RNA-sequencing and gene network analysis. Interacting and main effects of morphine, MIA, and sex were detected in approximately 2000 genes (false discovery rate-adjusted p-value < 0.05). Among the enriched molecular categories (false discovery rate-adjusted p-value < 0.05 and −1.5 > normalized enrichment score > 1.5) were the cell adhesion molecule pathways associated with inflammation and neuronal development and the long-term depression pathway associated with synaptic strength. Gene networks that integrate gene connectivity and expression profiles displayed the impact of morphine-by-MIA interaction effects on the pathways. The cell adhesion molecules and long-term depression networks presented an antagonistic effect between morphine and MIA. The differential expression between the double-challenged group and the baseline saline-treated Controls was less extreme than the individual challenges. The previous findings advance the knowledge about the effects of prenatal MIA and postnatal morphine exposure on the prefrontal cortex pathways.

Published

2022

32. Genes Participating in the Ensheathment of Neurons Are Affected by Postnatal Stress and Maternal Immune Activation in the Pituitary Gland

Author

Samah Alsegehy, Bruce R. Southey, Laurie Rund, Rodney W. Johnson, and Sandra L. Rodriguez-Zas

Subjects

RNA-seq, pituitary gland, ensheathment of neurons, Genetics, Genetics (clinical)

Abstract

Immune challenges during gestation are associated with neurodevelopmental disorders and can interact with stress later in life. The pituitary gland participates in endocrine- and immune-related processes that influence development, growth, and reproduction and can modulate physiological and behavioral responses to challenges. The objective of this study was to investigate the effect of stressors at different time points on the molecular mechanisms of the pituitary gland and detect sex differences. RNA sequencing was used to profile the pituitary glands of female and male pigs exposed to weaning stress and virally induced maternal immune activation (MIA), relative to unchallenged groups. Significant effects (FDR-adjusted p-value < 0.05) of MIA and weaning stress were detected in 1829 and 1014 genes, respectively. Of these, 1090 genes presented significant interactions between stressors and sex. The gene ontology biological process of the ensheathment of neurons (GO:0007272), substance abuse, and immuno-related pathways, including the measles disease (ssc05162), encompasses many genes with profiles impacted by MIA and weaning stress. A gene network analysis highlighted the under-expression of myelin protein zero (Mpz) and inhibitors of DNA binding 4 (Id4) among the non-stressed males exposed to MIA, relative to the control and non-MIA males exposed to weaning stress, relative to non-stressed pigs. The detection of changes in the molecular mechanisms of the pituitary gland could advance our understanding of disruptions in the formation of the myelin sheath and the transmission of neuron-to-neuron signals in behavioral disorders associated with maternal immune activation and stress.

Published

2023

33. Integration of statistical models and visualization tools to characterize microRNA networks influencing cancer.

Author

Kristin R. Delfino and Sandra L. Rodriguez-Zas

Published

2011

34. Model of ion intensity from tandem mass spectra for improved peptide identification and simulation.

Author

Zeeshan Fazal, Bruce R. Southey, Ahmed Sadeque, Jonathan V. Sweedler, and Sandra L. Rodriguez-Zas

Published

2011

35. Integration of polygenic and individual SNP effects in genome-wide association analyses.

Author

Nicola V. L. Serao, Jonathan E. Beever, D. B. Faulkner, and Sandra L. Rodriguez-Zas

Published

2011

36. Hierarchical modeling of alternative exon usage associations with survival.

Author

Ahmed Sadeque, Nicola V. L. Serao, Bruce R. Southey, Zeeshan Fazal, and Sandra L. Rodriguez-Zas

Published

2011

37. Integration of sequence and functional information to identify and annotate neuropeptides in the pig genome.

Author

Kenneth I. Porter, Bruce R. Southey, Malik N. Akhtar, Jonathan V. Sweedler, and Sandra L. Rodriguez-Zas

Published

2011

38. Integration of statistical models and visualization tools to characterize microRNA networks influencing cancer.

Author

James Karnia, Kristin R. Delfino, Maria B. Villamil, Gustavo Caetano-Anollés, and Sandra L. Rodriguez-Zas

Published

2011

39. Comparison of tandem mass spectrometry search methods to identify neuropeptides.

Author

Malik N. Akhtar, Bruce R. Southey, Kenneth I. Porter, Jonathan V. Sweedler, and Sandra L. Rodriguez-Zas

Published

2011

40. Additive and multiplicative genome-wide association models identify genes associated with growth.

Author

Cynthia Zavala, Nicola V. L. Serao, Maria B. Villamil, Gustavo Caetano-Anollés, and Sandra L. Rodriguez-Zas

Published

2011

41. Associations of reproductive indices with fertility outcomes, milk yield, and survival in Holstein cows

Author

José E. P. Santos, Klibs N. Galvão, William W. Thatcher, Rodrigo C. Bicalho, Sandra L. Rodriguez-Zas, Guilherme J. M. Rosa, R.O. Gilbert, G.M. Schuenemann, Christopher M. Seabury, Ricardo C. Chebel, and Pablo Pinedo

Subjects

medicine.medical_treatment, media_common.quotation_subject, Population, Cattle Diseases, Ice calving, Fertility, Biology, Logistic regression, 03 medical and health sciences, Animal science, Pregnancy, Genetics, medicine, Animals, Lactation, Metritis, education, Insemination, Artificial, 030304 developmental biology, media_common, 0303 health sciences, education.field_of_study, Colostrum, Reproduction, Artificial insemination, Postpartum Period, Parturition, Pregnancy Outcome, 0402 animal and dairy science, food and beverages, Ketosis, 04 agricultural and veterinary sciences, medicine.disease, 040201 dairy & animal science, Mastitis, Pregnancy Complications, Parity, Milk, Quartile, Cattle, Female, Animal Science and Zoology, Seasons, Endometritis, Placenta, Retained, Food Science

Abstract

The study is part of a research effort investigating potential associations between genomic variation and fertility of Holstein cows. The objective was to compare the reproductive performance of Holstein cows in 3 categories of 2 reproductive indices (RI) that were developed for the allocation of cows in a ranking for potential fertility, based on the predicted probability of pregnancy. The associations between categories of the developed indices and multiple fertility variables in a large multistate population of Holstein cows were tested. In addition, we analyzed associations among the RI categories with milk yield and survival. Based on phenotypic information from individual cows, 2 reproductive indices (RI1 and RI2) were developed, representing a predicted probability that a cow will become pregnant at first artificial insemination postpartum, as a function of explanatory variables used in a logistic model. Data from a total of 11,733 cows calving in 16 farms located in 4 regions of the United States (Northeast, Midwest, Southeast, and Southwest) were available. Cows were enrolled at parturition and monitored weekly for reproductive events, health status, milk yield, and survival. To develop the indices, potential significant effects were initially tested by univariate analyses. Effects with P ≤ 0.05 were offered to the multivariate analysis, and the final models were determined through backward elimination, considering potentially significant interactions. The final model for RI1 included the random effect of farm and a complement of significant fixed effects as explanatory variables influencing a pregnancy outcome: (1) incidence of retained fetal membranes; (2) metritis; (3) clinical endometritis; (4) lameness at 35 days in milk (DIM); (5) resumption of postpartum ovulation by 50 DIM; (6) season of calving; and (7) parity number. The model for RI2 included (1) parity number; (2) body condition score at 40 DIM; (3) incidence of retained fetal membranes; (4) metritis; (5) resumption of postpartum ovulation by 50 DIM; (6) region; (7) subclinical ketosis; (8) mastitis; (9) clinical endometritis; and (10) milk yield at the first milk test after calving; as well as the interaction effects of postpartum resumption of ovulation by 50 DIM × region; mastitis × region; and milk yield at the first milk test after calving × parity number. Multivariate logistic regression, ANOVA, and survival analysis were used to test the correspondence between the resulting RI and individual fertility, milk yield, and survival from the population. To facilitate the analyses, the resulting RI values were categorized as low for cows in the lowest quartile, medium for cows within the interquartile range, or high for cows in the top quartile. We found consistent agreement between categories of the predicted RI and the measures of fertility and survival collected from individual cows. We conclude that the proposed RI represent a viable approach to refine the allocation of cows into potential low- and high-fertility populations.

Published

2020

42. Chemical composition of selected insect meals and their effect on apparent total tract digestibility, fecal metabolites, and microbiota of adult cats fed insect-based retorted diets

Author

Lauren M Reilly, Yi Hu, Patrick C von Schaumburg, Maiara R D de Oliveira, Fei He, Sandra L Rodriguez-Zas, Bruce R Southey, Carl M Parsons, Pam Utterback, Leah Lambrakis, Diego V da Costa, Antonio G Bertechini, Flávia M O B Saad, and Maria R C de Godoy

Subjects

Male, Insecta, Microbiota, General Medicine, Animal Feed, Diet, Feces, Cats, Genetics, Animals, Animal Nutritional Physiological Phenomena, Digestion, Animal Science and Zoology, Companion Animal Nutrition, Chickens, Meals, Food Science

Abstract

Insect meals are novel and potentially sustainable protein sources. The objectives of this study were to determine the chemical composition and standardized amino acid digestibility using the cecectomized rooster model of three selected insect meals (i.e., speckled cockroach [SC], Madagascar hissing cockroach [MC], and superworm [SW]) and to determine the effects of these insect meals on food intake, apparent total tract digestibility (ATTD) of macronutrients, fecal scores, and metabolites of adult cats fed insect- or chicken-based retorted diets. This study consisted of a complete randomized design, with 28 adult cats randomly assigned to one of the four experimental retorted diets: Control (chicken-based diet), SC diet, MC diet, or SW diet. All animal procedures were approved by the University of Illinois Institutional Animal Care and Use Committee. All diets were formulated to be complete and balanced and meet or exceed the nutritional requirements of adult cats. The experimental period was 28 d, with the first 7 d allotted for diet adaptation. The total fecal collection was completed during the last 4 d of the experimental period. On day 21, a fresh fecal sample from each cat was collected for the determination of fecal metabolites and microbiota. Food was offered twice daily to maintain body weight and body condition score. Among the three selected insect meals evaluated, oleic acid, palmitic acid, linoleic acid, and stearic acid were the most prevalent fatty acids. Branched-chain amino acids and arginine were the most preponderant indispensable amino acids in these insect meals. ATTD of dry matter, organic matter, acid-hydrolyzed fat, and crude protein did not differ among treatments (P 0.05), and all diets were well digested by the cats. Similarly, fecal scores did not differ among the treatments and were within ideal range. No differences (P 0.05) in fecal metabolite concentrations or microbiota diversity were observed among cats fed different experimental diets; only a few genera from Firmicutes and Bacteroidota phyla differ (P 0.05) in cats fed SW diet in contrast to other dietary treatments. In conclusion, the selected insect meals evaluated herein are rich in linoleic acid, an essential fatty acid for cats. Insect-based retorted diets led to comparable results to those achieved with a chicken-based retorted diet, suggesting that these novel protein sources might be adequate alternative ingredients in feline diets.Insect meals are novel and potentially sustainable protein sources. The objectives of this study were to determine the nutrient composition of speckled cockroach, Madagascar hissing cockroach, and superworm (SW) and to determine the effects of these insect meals on food intake, digestibility of macronutrients, fecal scores, metabolites, and microbiota of adult cats fed insect- or chicken-based wet pet foods. Among the three selected insect meals evaluated, oleic acid, palmitic acid, linoleic acid, and stearic acid were the most prevalent fatty acids. Branched-chain amino acids and arginine were the most preponderant indispensable amino acids in these insect meals. All diets were well digested by the cats with no differences observed on macronutrient digestibility. Similarly, fecal scores did not differ among the treatments and were within the ideal range. No differences in fecal metabolite concentrations were observed. Only a few genera from Firmicutes and Bacteroidota phyla differ in cats fed SW diet in contrast to other dietary treatments. Overall, the selected insect meals evaluated herein are rich in linoleic acid, an essential fatty acid for cats. Insect-based retorted diets led to comparable results to those achieved with a chicken-based retorted diet, suggesting that these novel protein sources might be adequate alternative ingredients in feline diets.

Published

2022

43. Co-expression networks uncover regulation of splicing and transcription markers of disease

Author

Sandra L. Rodriguez-Zas, Bruce R. Southey, and Pan Zhang

Subjects

Transcription (biology), RNA splicing, Disease, Biology, Article, Cell biology

Abstract

Gene co-expression networks based on gene expression data are usually used to capture biologically significant patterns, enabling the discovery of biomarkers and interpretation of regulatory relationships. However, the coordination of numerous splicing changes within and across genes can exert a substantial impact on the function of these genes. This is particularly impactful in studies of the properties of the nervous system, which can be masked in the networks that only assess the correlation between gene expression levels. A bioinformatics approach was developed to uncover the role of alternative splicing and associated transcriptional networks using RNA-seq profiles. Data from 40 samples, including control and two treatments associated with sensitivity to stimuli across two central nervous system regions that can present differential splicing, were explored. The gene expression and relative isoform levels were integrated into a transcriptome-wide matrix, and then Graphical Lasso was applied to capture the interactions between genes and isoforms. Next, functional enrichment analysis enabled the discovery of pathways dysregulated at the isoform or gene levels and the interpretation of these interactions within a central nervous region. In addition, a Bayesian biclustering strategy was used to reconstruct treatment-specific networks from gene expression profile, allowing the identification of hub molecules and visualization of highly connected modules of isoforms and genes in specific conditions. Our bioinformatics approach can offer comparable insights into the discovery of biomarkers and therapeutic targets for a wide range of diseases and conditions.

Published

2022

44. Investigating functional relationships among health and fertility traits in dairy cows

Author

Fernando B. Lopes, Guilherme J.M. Rosa, Pablo Pinedo, Jose E.P. Santos, Ricardo C. Chebel, Klibs N. Galvao, Gustavo M. Schuenemann, Rodrigo C. Bicalho, Robert O. Gilbert, Sandra L. Rodriguez-Zas, Christopher M. Seabury, Fernanda Rezende, and William Thatcher

Subjects

General Veterinary, Animal Science and Zoology

Published

2022

45. PSX-B-30 Study of the effects of gestational and weaning stresses on blood cytokines and analytes in pigs

Author

Laurie A. Rund, Rodney W. Johnson, Courtni R Bolt, Sandra L. Rodriguez-Zas, and Haley E Rymut

Subjects

Andrology, Poster Presentations, business.industry, Genetics, Gestation, Weaning, Medicine, Animal Science and Zoology, General Medicine, business, Food Science

Abstract

The effects of the practice of weaning in pigs have been documented, and include changes in organ function and immune mechanisms. However, the effects of weaning following exposure to maternal infection during gestation are incompletely characterized. We hypothesize that the disruption of physiological processes triggered by weaning can be influenced by the exposure of the pig to maternal immune signals elicited by a challenge during gestation. To test our hypothesis, the concentrations of biochemical indicators and cytokines were measured in the blood from 72 female and male pigs distributed across two weaning groups (nursed or weaned), and two gestational challenge groups (gilts infected with porcine reproductive and respiratory virus or healthy controls). Weaning had a significant effect on the concentration of albumin among females born from healthy gilts (P < 0.01). The albumin concentrations were higher in weaned relative to nursed pigs from healthy gilts. This pattern may be associated with the transition to a higher protein diet, whereas no differences were observed among pigs from infected gilts. The interaction between gestation and weaning stresses had a significant effect on the concentration of bicarbonate. The highest levels of bicarbonate were detected among nursed pigs from infected gilts. The lowest levels of bicarbonate were detected among weaned pigs from health gilts, and this could indicate metabolic acidosis. An interaction effect (P < 0.02) was detected for pro-inflammatory interleukin 4. The highest concentrations of interleukin 4 were detected in weaned females from infected gilts, while the lowest levels were detected among weaned males from health gilts. The studied biomarker patterns indicate that the effect of weaning on blood indicators can be influenced by the exposure of the pigs to challenges during gestation. This study is supported by USDA NIFA AFRI, grant number 2018-67015-27413.

Published

2021

46. Adherence to

Author

Christian A, Maino Vieytes, Sandra L, Rodriguez-Zas, Zeynep, Madak-Erdogan, Rebecca L, Smith, Katie R, Zarins, Gregory T, Wolf, Laura S, Rozek, Alison M, Mondul, and Anna E, Arthur

Abstract

No studies, to date, have scrutinized the role of

Published

2021

47. Alternative Splicing Mechanisms Underlying Opioid-Induced Hyperalgesia

Author

Sandra L. Rodriguez-Zas, Olivia C. Perez, Bruce R. Southey, Jonathan V. Sweedler, Pan Zhang, and Amynah A. Pradhan

Subjects

Male, Nerve Tissue Proteins, QH426-470, Biology, Nucleus accumbens, Protein Serine-Threonine Kinases, Receptors, N-Methyl-D-Aspartate, Article, Mice, transcript isoform, Genetics, medicine, Animals, Humans, glutamatergic system, Opioid-induced hyperalgesia, Genetics (clinical), transcription factor, Adaptor Proteins, Signal Transducing, Morphine, Alternative splicing, Microfilament Proteins, Pre-B-Cell Leukemia Transcription Factor 1, ARNTL Transcription Factors, LIM Domain Proteins, Analgesics, Opioid, Repressor Proteins, Alternative Splicing, Gene Expression Regulation, Trigeminal Ganglion, Metabotropic glutamate receptor, Hyperalgesia, RNA splicing, Synapses, Axon guidance, Glutamatergic synapse, medicine.symptom, Neuroscience, Signal Transduction

Abstract

Prolonged use of opioids can cause opioid-induced hyperalgesia (OIH). The impact of alternative splicing on OIH remains partially characterized. A study of the absolute and relative modes of action of alternative splicing further the understanding of the molecular mechanisms underlying OIH. Differential absolute and relative isoform profiles were detected in the trigeminal ganglia and nucleus accumbens of mice presenting OIH behaviors elicited by chronic morphine administration relative to control mice. Genes that participate in glutamatergic synapse (e.g., Grip1, Grin1, Wnk3), myelin protein processes (e.g., Mbp, Mpz), and axon guidance presented absolute and relative splicing associated with OIH. Splicing of genes in the gonadotropin-releasing hormone receptor pathway was detected in the nucleus accumbens while splicing in the vascular endothelial growth factor, endogenous cannabinoid signaling, circadian clock system, and metabotropic glutamate receptor pathways was detected in the trigeminal ganglia. A notable finding was the prevalence of alternatively spliced transcription factors and regulators (e.g., Ciart, Ablim2, Pbx1, Arntl2) in the trigeminal ganglia. Insights into the nociceptive and antinociceptive modulatory action of Hnrnpk were gained. The results from our study highlight the impact of alternative splicing and transcriptional regulators on OIH and expose the need for isoform-level research to advance the understanding of morphine-associated hyperalgesia.

Published

2021

48. The Combined Effect of Weaning Stress and Immune Activation during Pig Gestation on Serum Cytokine and Analyte Concentrations

Author

Courtni R Bolt, Laurie A. Rund, Bruce R. Southey, María B. Villamil, Sandra L. Rodriguez-Zas, Rodney W. Johnson, and Haley E Rymut

Subjects

0301 basic medicine, Interleukin 2, medicine.medical_specialty, endocrine system diseases, Offspring, Veterinary medicine, interleukin 2, Article, 03 medical and health sciences, anion gap, 0302 clinical medicine, Immune system, Internal medicine, SF600-1100, medicine, Weaning, interleukin 1 beta, calcium, General Veterinary, biology, Porcine reproductive and respiratory syndrome virus, biology.organism_classification, 030104 developmental biology, Endocrinology, Blood chemistry, QL1-991, Gestation, Animal Science and Zoology, bilirubin, Zoology, 030217 neurology & neurosurgery, medicine.drug, Hormone

Abstract

Simple Summary The present study of blood chemical, cytokine and hormone indicators in male and female pigs offered insights into the combined effects of maternal immune activation and weaning stress. Our results indicate that maternal immune activation may grant higher tolerance to anion gap and bilirubin disruptions triggered by weaning stress. Therefore, management practices aimed at minimizing the effects of weaning should consider the interacting effect of immune activation during development. Abstract Weaning stress can elicit changes in the metabolic, hormone and immune systems of pigs and interact with prolonged disruptions stemming from maternal immune activation (MIA) during gestation. The present study advances the characterization of the combined effects of weaning stress and MIA on blood chemistry, immune and hormone indicators that inform on the health of pigs. Three-week-old female and male offspring of control gilts or gilts infected with the porcine reproductive and respiratory syndrome virus were allocated to weaned or nursed groups. The anion gap and bilirubin profiles suggest that MIA enhances tolerance to the effects of weaning stress. Interleukin 1 beta and interleukin 2 were highest among weaned MIA females, and cortisol was higher among weaned relative to nursed pigs across sexes. Canonical discriminant analysis demonstrated that weaned and nursed pigs have distinct chemistry profiles, whereas MIA and control pigs have distinct cytokine profiles. The results from this study can guide management practices that recognize the effects of the interaction between MIA and weaning stress on the performance and health of pigs.

Published

2021

49. Effects of graded inclusion levels of raw garbanzo beans on apparent total tract digestibility, fecal quality, and fecal fermentative end-products and microbiota in extruded feline diets

Author

Jolene M Hoke, Gary Mitchell Davenport, Lauren M Reilly, Maria R C de Godoy, Sandra L. Rodriguez-Zas, Bruce R. Southey, and Fei He

Subjects

Male, Firmicutes, Pet food, Feces, Animal science, Latin square, Genetics, medicine, Animals, Companion Animal Nutrition, CATS, medicine.diagnostic_test, biology, Microbiota, Complete blood count, Fusobacteria, General Medicine, biology.organism_classification, Animal Feed, Cicer, Diet, Plant protein, Cats, Animal Science and Zoology, Animal Nutritional Physiological Phenomena, Digestion, Food Science

Abstract

Garbanzo beans (GB; Cicer arietinum) are a readily available pulse crop that have gained popularity as a plant-based protein source in the pet food industry. However, raw GB contain anti-nutritional factors that can reduce digestibility and cause digestive upsets in pets that are undesirable to owners. The objective of this study was to determine the effects of the inclusion of raw or cooked GB in extruded feline diets on macronutrient digestibility, gastrointestinal tolerance, and fermentative end-products in cats. Five diets were formulated to contain raw GB at 0%, 7.5%, 15%, or 30% or cooked GB at 30%. Ten adult, male cats (mean age: 1.0 ± 0.0 yr, mean BW: 4.7 ± 0.4 kg) were used in a replicated 5 × 5 Latin square design. Each period consisted of 14 d, with 10 d of diet adaptation followed by 4 d of total fecal and urine collection. At the end of each period, 4 mL of blood were collected and analyzed for a serum chemistry and complete blood count to ensure all animals remained healthy throughout the study. Cats were fed twice daily and food intake was calculated to maintain body weight. Food intake was highest (P < 0.05) for cats fed 0% raw GB (72.2 g/d, dry matter basis [DMB]) compared with GB inclusions of 7.5% or greater (average 70.3 g/d, DMB). Dry matter and organic matter apparent total tract digestibility (ATTD) were lowest (P < 0.05) for cats consuming the 30% cooked GB diet (77.3% and 81.7%, respectively). Cats fed 7.5% raw GB had greater (P < 0.05) crude protein ATTD (86.2%) than cats fed 15% raw GB (82.3%) or 30% cooked GB (81.6%). Total short-chain fatty acid concentrations were highest (P < 0.05) for 30% cooked GB at 682 μmol/g but not different (P > 0.05) than 15% GB (528 μmol/g) or 30% raw GB (591 μmol/g) diets. In terms of fecal microbial abundance, the predominant phyla were Firmicutes, Bacteroidota, and Actinobacteria. Cats fed the 0% GB diet had a greater relative abundance of Firmicutes (62.1%) and Fusobacteria (4.0%) than the remaining diets (average 54% and 1.6%, respectively). In conclusion, all inclusion levels of raw GB resulted in high digestibility (average > 80%) and ideal fecal scores (average 2.9), demonstrating their adequacy as a protein source in feline diets up to a 30% inclusion level.

Published

2021

50. Miscanthus Grass as a Novel Functional Fiber Source in Extruded Feline Diets

Author

Fei He, Bruce R. Southey, Shannon E Finet, Maria R C de Godoy, and Sandra L. Rodriguez-Zas

Subjects

Veterinary medicine, Biology, 03 medical and health sciences, Animal science, SF600-1100, Miscanthus grass, Miscanthus giganteus, Fiber, Beet pulp, Feces, 030304 developmental biology, Original Research, chemistry.chemical_classification, 0303 health sciences, fecal microbiota, post-biotics, General Veterinary, cats, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Miscanthus, biology.organism_classification, dietary fiber, 040201 dairy & animal science, Human nutrition, Tomato pomace, chemistry, nutrient digestibility, Veterinary Science, Essential nutrient

Abstract

Although dietary fiber is not considered an essential nutrient in a complete and balanced diet for felines, it provides a substrate for fermentation by gut microbiota, thus promoting gastrointestinal health through the production of fermentative metabolites, as well as improving laxation. The aim of this research was to evaluate the novel fiber source, Miscanthus grass (Miscanthus giganteus), in comparison with traditional fiber sources and their effects on fecal quality, apparent total tract digestibility (ATTD), fecal fermentative end products, and microbiota of healthy adult cats. Four dietary treatments were evaluated, differing in dietary fiber source. The diets were formulated to meet or exceed the AAFCO (2018) nutritional profile for adult cats and contained either cellulose (CO), Miscanthus grass fiber (MF), a blend of Miscanthus fiber and tomato pomace (MF + TP), or beet pulp (BP). The study was conducted using a completely randomized design with 28 neutered adult, domesticated shorthair cats (19 females and 9 males, mean age 2.2 ± 0.03 years; mean body weight 4.6 ± 0.7 kg, mean body condition score 5.6 ± 0.6). The experimental period comprised 21 days, and a fresh fecal and a total fecal collection were performed during the last 4 days of the trial period. Daily food intake (DM basis) was similar across all groups (P > 0.05). Additionally, treatment did not affect fecal output (as-is or DM basis), fecal score, or fecal pH (P > 0.05). Cats fed BP had significantly higher total dietary fiber ATTD than all the other treatments (P < 0.05) and the highest concentrations of total short-chain fatty acid, acetate, and propionate (P < 0.05), while butyrate concentrations were similar for all treatments (P > 0.05). Inclusion of dietary fibers was effective in modulating gut microbiota. Cats fed diets containing Miscanthus grass had greater α-diversity than cats fed BP. As no adverse effects on health, fecal quality, or ATTD of macronutrients were observed with the inclusion of 9% Miscanthus grass fiber or fiber blend, the data suggest that Miscanthus grass fiber and fiber blends are viable alternatives to the traditional dietary fiber sources used in commercial extruded feline diets, being most comparable to cellulose.

Published

2021