Plane Of Nutrition Research Articles

Intergenerational effects of maternal rate of body weight gain on the multi-omics hepatic profiles of bovine fetuses

Maternal periconceptual nutrition affects the growth trajectory of developing fetuses by modulating gene expression. The regulatory mechanisms and their role in fetal development remain underexplored in livestock models. Herein we investigated the effects of maternal rate of body weight (BW) gain during early gestation on the DNA methylation, microRNA profiles and their interaction with the hepatic gene expression in female fetuses. At breeding, 36 crossbred beef heifers (∼13 months of age) were randomly assigned to a nutritional plane to gain Low (0.28 kg/day; LG, n = 18) or Moderate (0.79 kg/day; MG, n = 18) BW through the first 83 days of gestation. A subset of pregnant heifers (n = 17) was selected, and fetal liver samples were collected on day 83 of gestation for DNA methylation and miRNA-Sequencing. After data quality control, miRDeep2 and Bismark tools were used to analyze miRNA and methylation data, respectively. The bta-miR-206 was the only differentially expressed miRNA (FDR = 0.02). Eight differentially methylated genes were identified (DMG, FDR < 0.1). The over-represented pathways and biological processes (adj. p < 0.05) for bta-miR-206 targeted genes were associated with embryonic development, energy metabolism, and mineral transport, whereas the DMGs regulated anatomical structural development and transcriptional regulation. Our results show that key genes involved with liver metabolism and function were regulated by DNA methylation and the miR-206. However, further investigation is warranted to determine physiological responses and long-term consequences on animal performance.

IMPACT OF REAL-LIFE ENVIRONMENTAL EXPOSURES ON REPRODUCTION: Systemic and ovarian impacts of heat stress in the porcine model.

This review describes how heat stress causes systemic endocrine and metabolic alterations that contribute to intracellular ovarian perturbations, resulting in female infertility. Heat stress (HS) in mammals results from an imbalance in heat accumulation and dissipation. Fertility impairments consequential to HS have been recognized for decades in production animals, and more recently, observations have been extended to other species, including women. There are several systemic impacts of HS that can independently affect reproduction, including metabolic endotoxemia, reduced plane of nutrition, and endocrine disruption. At the level of the ovary, molecular pathways are altered by HS, such as inflammation, JAK-STAT, PI3K, oxidative stress, cell death, and heat shock response. Taken together, impaired ovarian function contributes to seasonal infertility that results from HS. This review paper describes the physiological and endocrine systemic impacts of HS that may independently and collaboratively impair fertility in the porcine model. The review then details ovarian intracellular events that are altered during HS and finally determines future needs in this area of research.

Influence of sire plane of nutrition and targeted body weight gain on ewe lamb growth, glucose metabolism, and ovarian reserve.

Rambouillet rams were managed on either a positive (POS; gain 12% body weight [BW]; n = 8), maintenance (MAINT; maintain BW; n = 8), or negative (NEG; lose 12% BW; n = 8) plane of nutrition before breeding. Rams were bred to ewes (n = 10 per ram) that were managed similarly throughout gestation, and lambs were fed a common diet postnatally. Two ewe lambs (7.6 ± 0.02 months of age, BW = 47.1 ± 1.17kg) from each sire were selected and within pair, randomly assigned to be managed for a moderate (MOD, 0.11kg/d; n = 23) or accelerated (ACC, 0.20kg/d; n = 22) rate of gain for 56 d. Ewe lamb BW was recorded on a weekly basis and blood was collected on d 0, 28, and 56 for analysis of insulin-like growth factor 1 (IGF-1), triiodothyronine (T3), thyroxine (T4), glucose, blood urea nitrogen (BUN), and non-esterified fatty acids (NEFA). Intravenous glucose tolerance tests (IVGTT) were conducted from d -7 to -4 and d 57 to 64. A unilateral ovariectomy was performed and ovarian follicles were staged and counted macro and microscopically. Sire treatment × day and ewe treatment × day interactions were present for BW (P ≤ 0.05), where POS had slower growth than MAINT and NEG, and tended (P = 0.10) to have reduced average daily gain (ADG) when managed at an accelerated rate of gain.By design, ACC had greater BW and ADG than MOD (P < 0.05). Concentrations of IGF-1 and T4 were greater in ACC than MOD (P ≤ 0.05), and NEG tended to have greater concentrations of IGF-1 than POS and MAINT (P = 0.08). At the first IVGTT, concentration of insulin was influenced by a sire treatment × time interaction (P ≤ 0.05), suggesting impaired secretion in NEG-sires ewes, but no differences in area under the curve (AUC) for glucose, insulin, or their ratio (P ≥ 0.11). No interactive effects of sire and ewe treatment (P ≥ 0.52) were observed at the second IVGTT, but insulin and insulin:glucose ratio were influenced by sire treatment × time (P ≤ 0.02), as NEG had greater insulin concentration at 60min than MAINT (P = 0.03) and greater AUC than POS and MAINT (P ≤ 0.04). No differences in ovary size, weight, or total counts of macro and microscopic follicles were observed (P ≥ 0.23). Ewes fed ACC had a greater number of small surface follicles (P = 0.02), whereas MOD tended to have a greater number of large surface follicles and tertiary follicles (P < 0.06). These findings suggest that paternal plane of nutrition influences female offspring physiology, particularly at varying growth rates.

Nutrition, Growth, and Age at Puberty in Heifers

Puberty onset and age at first calving have a critical impact on livestock production for good reproductive efficiency of the herd and to reduce the duration of the non-productive stage of the growing heifer. Besides genetic factors, sexual maturation is also affected by environmental factors, such as nutrition, which can account for up to 20% of the observed variability. The rate of body weight gain during growth is considered the main variable influencing the age at puberty, dependent on planes of nutrition in growing animals during the prepubertal-to-pregnancy stage. This paper reviews current knowledge concerning nutrition management and attainment of puberty in heifers, considering the relevance of some indicators such as body measurements and hormones strictly linked to the growth and puberty process. Puberty onset is dependent on the acquisition of adequate subcutaneous adipose tissue mass, as it is the main source of the hormone leptin. Until a certain level, body condition score and age at puberty are negatively correlated, but beyond that, for fatter animals, such correlation is gradually lost. Age at puberty in heifers was reported to be negatively related to IGF-1. Future research should be planned considering the need to standardize the experimental animals and conditions.

PSLBI-13 Characterizing the seminal microbiota in mature rams managed on divergent planes of nutrition, and in their male offspring

Abstract Increasing evidence suggests that the bovine semen harbors commensal microbiota, and it may be important in male fertility. However, much is unknown regarding the seminal microbiota, its evolution and factors shaping this community in sheep. The objective of this study was to evaluate whether managing the rams on divergent planes of nutrition can influence the seminal microbiota in mature rams and their male offspring. For this, Rambouillet rams (n = 24; 1.5 to 4 yr old) were randomly assigned to one of three groups: 1) a positive plane of nutrition [target 12% gain in their initial body weight (BW; POS, n = 8); 2) a maintenance [maintain the initial BW (MNT, n = 8)]; and 3) a negative [target a 12% reduction in BW (NEG; n = 8)] plane of nutrition over 84 d. The rams were individually housed and fed a common diet, and feed allocations were adjusted weekly. Following the 84-d feeding period, these rams were used to breed 240 mature Rambouillet ewes (1:10 ram:ewe ratio) over 28 d of breeding. After lambing, the male lambs were maintained on a similar diet for 124 d. Semen samples from the mature rams (F0 generation) were collected on d 28, 56, and 84, and semen samples from offspring rams (F1 generation) were collected at 330 d of age via electroejaculation. Genomic DNA was extracted from semen samples and the seminal microbiota characterized using 16S rRNA gene (V3-V4) sequencing. Several environmental and negative extraction controls were also sequenced to assess potential contaminants in these samples. Overall community structure of the seminal microbiota in F0 rams was not affected by the divergent planes of nutrition (PERMANOVA: P ≥ 0.05) or by sampling time (P &amp;gt; 0.05). Microbial richness (observed ASVs) was also not different (P &amp;gt; 0.05) between the three groups of F0 rams at any of the sampling time points; however, microbial diversity (P &amp;lt; 0.05) in the F0 rams was influenced by sire dietary treatment. Microbial community structure, richness and diversity did not differ among the POS, MNT and NEG F1 generation rams (P &amp;gt; 0.05). Actinobacteriota, Firmicutes, Bacteroidota, Proteobacteria and Fusobacteriota were the most abundant phyla. Only Bacteroidota abundance was significantly (P &amp;lt; 0.05) different between three F0 groups, with POS rams had greater (18.6%) of this phylum on d 28 as compared with MNT (2.1%) and NEG (5.1%). The predominant genera identified included Fastidiosipila, Corynebacterium, Trueperella, Arthrobacter, Dietzia, Bifidobacterium, Streptobacillus, Ornithinimicrobium, and Porphyromonas, and their relative abundance was not affected (P &amp;gt; 0.05) by the dietary treatment in F0 rams. Overall, rams managed on positive and negative planes of nutrition harbored similar seminal microbiota to control rams, and divergent nutrition also had no effect on the offspring ram seminal microbiota.

429 Maternal rate of gain and one-carbon metabolites supplementation alters the gene expression profile of fetal brain during early gestation in beef heifers

Abstract Maternal nutritional plane during pregnancy may leave lifelong impacts on offspring in beef cattle. Given that, we hypothesized that the supplementation of one-carbon metabolites (OCM) during pregnancy would mitigate the negative effects of maternal rate of gain through brain gene expression regulation in early developing bovine fetuses. The objective of this study was to evaluate the effects of OCM supplementation and maternal rate of gain on gene expression in the developing fetal brain in gestating beef heifers. Herein, Angus crossbred heifers (n = 72, body weight = 406 ± 33 kg) were randomly assigned to 2 × 2 factorial arrangement of treatments with two levels of maternal rate of gain (CON, 0.60 kg/d; and RES, -0.23 kg/d) each with or without OCM supplementation (+OCM, and -OCM). Heifers were fed individually and were bred using female-sexed semen from a single sire. The OCM supplementation included rumen-protected choline (44.4 g/d) and methionine (7.4 g/d) in corn carrier fed daily and weekly injections of folate (320 mg) and vitamin B12 (20 mg). The -OCM heifers received the corn carrier and saline injections. The treatments started at the time of breeding and continued until d 63 of gestation when pregnant heifers (n = 29) were slaughtered to collect fetal brain tissues for RNA sequencing. The fetal brain phenotypic data were analyzed using MIXED procedures of SAS, indicating that restricted nutrition affected the fetal right hemisphere weight (P &amp;lt; 0.05), and there was a strong tendency for overall fetal brain weight (0.05 &amp;lt; P &amp;lt; 0.1) to be affected as well. Brain transcriptomics data were analyzed using STAR aligner and a total of 177 differentially expressed genes (DEGs, FDR &amp;lt; 0.05) were identified across all treatment comparisons using DESeq2. Most of the DEGs were either isoforms of spliceosomal non-coding RNAs or micro-RNAs (miRNAs) associated with biological processes (FDR &amp;lt; 0.1) like mRNA processing, cellular nitrogen metabolism, lipid metabolism, and post-transcriptional gene silencing. The key miRNAs upregulated in the brain tissue of restricted fetuses without OCM supplementation, bta-mir-2375, bta-mir-876, and bta-mir-196a-1, were found to be associated with early embryogenesis and essential cellular regulatory processes. Conversely, in restricted fetuses with OCM supplementation, upregulated miRNAs such as bta-mir-216b, bta-mir-2285dd, and bta-mir-1298 were linked to early embryonic development, muscular development, and lipid metabolism in cattle. Both phenotypic and transcriptomics data here revealed that the maternal rate of gain altered fetal brain development, with differences seemingly compensated by OCM supplementation. USDA is an equal opportunity provider and employer.

PSI-13 The impact of divergent nutritional planes on systemic immune status in mature bulls

PSI-13 The impact of divergent nutritional planes on systemic immune status in mature bulls

Effect of enhanced plane of nutrition in early life on the transcriptome and proteome of the anterior pituitary gland in Angus heifer calves

BackgroundEnhanced nutrition during the early calfhood period has been shown to lead to earlier pubertal development in heifer calves. This is of interest as earlier pubertal onset can subsequently facilitate earlier calving which can economically benefit production systems. Reproductive development in heifers is regulated by the hypothalamic-pituitary-ovarian signalling pathway. In particular the anterior pituitary gland is central to reproductive development, through the dynamics of gonadotropic pulsatility. However, despite clear knowledge of the influence of enhanced dietary intake on subsequent reproductive development, the molecular control governing this response in the pituitary gland within the hypothalamic-pituitary-ovarian signalling axis in heifer calves is not fully understood. The objective of this study was to examine the effect of an enhanced plane of nutrition during early life on the anterior pituitary gland of heifer calves through both transcriptomic and proteomic analyses. Between 3 and 21 weeks of age, heifer calves were offered either a high (HI, n = 14) or moderate (MOD, n = 14) plane of nutrition, designed to elicit target growth rates of 1.2 and 0.5 kg/d for HI and MOD groups, respectively. All calves were euthanised at 21 weeks of age and anterior pituitary tissue harvested for subsequent use in global transcriptomic and proteomic analyses.ResultsAverage daily gain was affected by diet (P < 0.001) and was 1.18 and 0.50 kg/day, for HI and MOD calves, respectively. RNAseq analysis resulted in the identification of 195 differentially expressed genes (Padj<0.05; fold change > 1.5), with 277 proteins identified as differentially abundant (Padj<0.05; fold change > 1.5) between contrasting dietary treatment groups. Biochemical pathway analysis of differentially affected genes and proteins revealed an enrichment for both growth hormone and GnRH signalling pathways (Padj.<0.05). Additionally, pathway analysis predicted an effect of enhanced dietary intake on endocrine function within the anterior pituitary gland as well as on reproductive system development and function (Padj.<0.05).ConclusionsResults from this study show that an enhanced dietary intake during early calfhood affected the molecular control of the anterior pituitary gland in heifer calves in early life.

Effect of Moringa, Subabul and Guava Leaves Either Sole or in Combination on Nutrient Utilization, Nitrogen Balance of Ram Lambs

Background: The use of alternate feed resources like tree leaves is key element in addressing the problems derived from climate change and food shortages that demand establishment of sustainable feeding system for ruminants. Methods: A study was conducted on 36 Nellore cross ram lambs (6-7 months; 18.48±0.29 kg BW) randomly allotted to six dietary treatments to evaluate the effect of 20% dietary inclusion of moringa (MOR) subabul (SBL) and guava (GVL) leaves either sole or in combination (MS and MG mixture incorporated at 60:40 and 40:60, respectively) in concentrate mixture on nutrient utilization, plane of nutrition and nitrogen balance. The control group concentrate mixture contained maize, de-oiled rice bran, cotton seed cake and soybean meal as major ingredients and in the 5 experimental concentrate mixtures, de-oiled rice bran and soybean meal were partially replaced with moringa (MOR20), subabul (SBL20), guava (GVL20), moringa and subabul mixture (MS20) and moringa and guava mixture (MG20), by including them at 20%. Animals were fed with respective concentrate mixtures to meet about 80% of protein requirements and sorghum stover was offered ad libitum to meet the nutrient requirements of lambs for maintenance and growth as per ICAR (2013). Result: Dietary inclusion of tree leaves had no effect on the intake of various nutrients viz. DM, OM, CP, EE, CF, NFE, NDF,ADF, Hemicellulose and cellulose and were comparable (P greater than 0.05) among the six dietary groups. The crude protein and crude fibre digestibility improved (P less than 0.01) in tree leaves included diets compared to control, while ether extract (EE) digestibility was lower (P less than 0.01) in tree leaves included diets compared to CON. The DCP, TDN (%) and ME content was higher (P less than 0.05) in MS20, MG20 and MOR20 groups compared to CON. The N intake (g/d), excretion through faeces and urine (g/d), total N excretion and total N balance (g/d) was comparable among the different dietary groups.

Nutrient utilization and energy balance profile in probiotic supplemented Asian elephants

Aim: A study was methodized to evaluate whether supplementation of probiotics could impact the utilization of nutrients and energy in Asian elephants. Materials and Methods: Eighteen elephants were randomly selected for 60 days experiment including five days of the digestibility trial and divided into three groups with six elephants each i.e. control with no probiotic (T1) and the other two with probiotics Lactobacillus acidophilus in T2 and Saccharomyces cerevisiae in T3 groups at 1 × 109 CFU/gm concentrate per 50 kg body weight/ day orally. Results: : The intakes of ether extract and total ash revealed significant whereas the digestibility coefficients of total ash and acid-insoluble ash exhibited a highly significant effect of treatment. However, other values of intakes and the digestibility coefficients of proximate principles and fibre fractions could not reveal any significant effect. Practical nutritional worth, plane of nutrition and energy balance profile were also found to be non significant among the groups. Increasing trend of intake and the digestibility of energy; and the relative difference was associated with increased DM intake and NDF digestibility. The mean values for TDN%, NR, digestible DM and OM intakes and TDN intake were obtained to be higher for probiotic supplemented groups than the control group. Conclusion: It is concluded that probiotic supplementation could not exhibit any significant effect on nutrients and energy utilization in elephants. However, further research is needed to examine the effects of high doses, strain and viability of the probiotics.

Plant-animal relationship, metabolic and behavioral adaptations, and their association with production levels in primiparous cows in response to changes in herbage allowance in Basaltic native grasslands

Based on a two-level of herbage allowance (OF) with seasonal variations experiment, two experiments were conducted in spring-calving primiparous cows on basalt campos. Experiment 1 (Exp1) assessed high OF (AOF) and low OF (BOF) in cows undergoing temporary weaning and flushing (DTF) at the beginning of the breeding season, while Experiment 2 (Exp2) investigated the interaction between AOF and BOF levels pre and postpartum without DTF. Herbage quantity and height were generally below recommended values and they were higher in AOF during autumn and summer compared to BOF, explained by a lower stocking rate (~30%). In Exp1, AOF increased concentrations of IGF-I and insulin, and BCS in autumn, explained by higher herbage intake. These changes had a positive impact on IGF-I concentrations during winter and after the start of DTF in AOF compared to BOF, attributed to a carryover effect or metabolic memory, explaining the higher probability of ovulation and pregnancy. After DTF, AOF cows exhibited greater behavioral plasticity: a lower proportion of daytime spent grazing and more on rumination and walking, staying closer to their calves compared to BOF. The calves’ weight after 120 days was higher in AOF compared to BOF, associated with increased calves’ herbage intake and cow-calf proximity. In Exp2, BCS levels would have been sufficient to mitigate the negative energy balance in winter, explaining the absence of a prepartum OF effect. Postpartum AOF increased herbage intake compared to BOF and recorded higher concentrations of IGF-I, milk production, calf weight from 90 days, and the proportion of cows that ovulated. The OF affected the nutritional plane at different times between experiments; however, AOF in both experiments increased meat production per cow, biological efficiency and production per area associated with higher herbage intake, and metabolic and behavioral plasticity. The results contribute to the design of more productive, resilient and environmentally friendly systems.

A Beginner’s Guide to LAP AI

Goats and sheep are extremely fertile animals! The ewe and doe have very high reproductive potential. However, it must be remembered that “sex is a luxury” metabolically speaking. The ewe or doe must be healthy and on a good plane of nutrition be­fore maximum fertility is attained.

81 Effects of udder quarter location on colostrum yield, nutrients, and immunoglobulin G in beef heifers

Abstract We hypothesized that colostrum total nutrients and immunoglobulin G (IgG) would not be affected by side of the udder, but that they would be greater in the rear versus the front half of the udder due to difference in volume of colostrum produced. Complete colostrum yield was collected individually from each quarter pre-suckling [40.5 ± 21.0 min (SD)] from fall-calving crossbred beef heifers (body weight = 472 ± 34 kg; body condition score (= 5.3 ± 0.4) that were either individually-fed 100% (control; n = 12) or 70% (nutrient restricted; n = 12) of NASEM metabolizable energy and metabolizable protein requirements from d 160 of gestation to calving. Analysis of colostrum lactose, protein, triglycerides, and free glucose was performed using colorimetric assays on a UV-visible light microplate reader. Colostrum IgG was analyzed using a commercially available ELISA kit. Quarter yield, nutrient or IgG concentration, and total nutrients or IgG were analyzed using the mixed procedure of SAS with fixed effects of udder location, nutritional plane, and their interaction in the model. Nutritional plane was not part of the current objective, but was included to account for variation in colostrum yield due to nutrient restriction, as we have previously reported. Separate statistical comparisons were made between the front and rear quarters and between the right and left quarters of the udder, with each quarter considered a sampling unit within each experimental unit (half) for both analyses. The interaction of udder location × nutritional plane did not affect (P ≥ 0.11) any variable. Nutrient restriction decreased (P ≤ 0.03) colostrum yield, total lactose, and total free glucose compared with controls. Front quarters produced less volume (P &amp;lt; 0.001; 36.2% of total); total lactose, protein, and free glucose (P ≤ 0.02; 34.3 to 43.3%); and total IgG (P &amp;lt; 0.001; 33.7%) than rear quarters. Front quarters tended to produce less (P = 0.07; 43.3%) total triglycerides than rear quarters. Lactose concentration was 10.5% greater (P = 0.05) in front compared with rear quarters, but other nutrient or IgG concentrations were not affected (P ≥ 0.18). Udder side did not affect total volume (P = 0.78), total nutrients (P ≥ 0.36), or total IgG (P = 0.79). The left side represented 50.7% of the total volume and 50.1 to 53.4% of total nutrients and IgG produced. Concentration of nutrients and IgG also were not affected (P ≥ 0.31) by udder side. In conclusion, colostrum did not differ between udder sides, but, relative to front quarters, rear quarters produced greater nutrient and IgG yield due to greater colostrum volume with minimal differences in nutrient or IgG concentrations.

PSIV-A-4 Effect of late gestational nutrient restriction on locomotor activity of beef heifers

Abstract The objective of this study was to determine the effects of nutrient restriction on locomotor behavior during late gestation. Fall-calving crossbred beef heifers were moved to 3.7 × 15.8 m partially-covered pens and individually-fed 100% (control; n = 13) or 70% (nutrient restricted; n = 13) of NASEM metabolizable energy and metabolizable protein requirements for maintenance, pregnancy, and growth from d 160 of gestation to calving. Diets were based on chopped sorghum sudan hay fed in Calan gates and supplemented to meet targeted nutritional planes. IceQube accelerometers (iceRobotics, Edinburgh, UK) were placed on the left hind fetlock between d 158 and 168 of gestation to determine standing time, lying time, step count, number of lying bouts, and motion index. Daily behavior data were averaged for 5 distinct periods (period 1: IceQube placement to d 180 of gestation; period 2: d 181 to 201 of gestation; period 3: d 202 to 222 of gestation; period 4: d 223 to 243 of gestation; and period 5: 244 to 264 of gestation). Days in which animals were moved from their pens were excluded from the data set, resulting in an average of 17.2 ± 2.35 d per period. Data were analyzed with fixed effects of nutritional plane, period, and their interaction in the model. Maternal sire and day of treatment initiation were included as covariates. The number of lying bouts was affected (P = 0.02) by the nutritional plane × period interaction. Within period, there was no effect (P ≥ 0.20) of nutritional plane on lying bouts. Lying bouts in control heifers decreased (P = 0.008) from period 1 to 2, whereas lying bouts in nutrient restricted heifers decreased (P = 0.002) from period 1 to 2 before increasing (P = 0.02) again from period 2 to 3. Motion index and step count were affected (P ≤ 0.05) by nutritional plane, where both were greater in control heifers. Motion index and step count were affected (P &amp;lt; 0.001) by period, while standing time and lying time tended to be affected (P ≤ 0.09) by period. Motion index and step count decreased (P &amp;lt; 0.001) between periods 1 and 2 and periods 3 and 4 but increased (P ≤ 0.004) between periods 2 and 3 and periods 4 and 5. Standing time decreased (P = 0.02), while lying time increased (P = 0.02), between periods 3 and 4. These data suggest that nutrient restricted heifers may have reduced locomotor behavior in late gestation compared with control heifers. Throughout all periods of gestation, control heifers took more daily steps and had a greater motion index, suggesting that nutrient availability in late gestation may directly impact locomotor behavior of beef heifers.

PSIV-A-7 Effects of late gestational nutrient restriction of beef heifers on small intestinal crypt depth in neonatal calves

Abstract We hypothesized that late gestational nutrient restriction would impair small intestinal development in neonatal calves, including crypt cell depth and proliferation. Fall-calving crossbred beef heifers [body weight (BW) = 466 ± 30 (SD) kg; BCS: 5.4 ± 0.5] bred to a single sire were individually-fed 100% (control; n = 10) or 70% (nutrient restricted; n = 12) of NASEM metabolizable energy and metabolizable protein requirements for maintenance, pregnancy, and growth from d 160 of gestation to calving. Calves were removed from their dams immediately post-calving and fed artificial colostrum and milk replacer relative to body weight until euthanasia at 48.7 ± 0.4 h of age. The gastrointestinal tract was removed, and proximal jejunum samples were dissected from each calf and immersion-fixed in 10% neutral buffered formalin. Tissues were embedded in paraffin blocks and cut into 5-µm sections that were mounted on glass slides. Slides were incubated with Ki-67 (marker of nuclear proliferation) and counterstained with Hematoxylin using an autostainer. Images were taken at 5× magnification using an upright microscope. QuPath software was used to measure crypt depth, starting at the base of the crypt region and ending at the furthest cluster of Ki-67 positive cells, perpendicular to the base of the mucosa. For each calf, 10 crypt depth measurements were taken from 4 images, resulting in 40 crypt depth measurements that were averaged. Nutritional plane was a fixed effect in the model, and maternal sire, date of study initiation, and calf sex (when P &amp;lt; 0.25) were considered covariates. We previously reported that calves born to nutrient restricted dams weighed less (P ≤ 0.05) at birth and 48 h than calves born to control dams. Small intestinal mass tended to be less (P = 0.11) in offspring of nutrient restricted dams but was not affected (P = 0.58) when expressed relative to body weight. Calves born to nutrient restricted dams also tended to have less (P = 0.11) small intestinal mass relative to brain weight. Maternal nutrient restriction did not affect (P = 0.95) jejunal crypt depth. Additionally, crypt depth relative to body weight was not affected (P = 0.20) by nutrient restriction. Although crypt depth was not affected, further analysis of proliferation and morphology will help to understand the relationship between maternal nutrient restriction and small intestine development in neonatal calves.

The Effect of Colostrum Supplementation during the First 5 Days of Life on Calf Health, Enteric Pathogen Shedding, and Immunological Response.

The objective of this dairy farm study was to investigate the preweaning health, performance, immunity, and enteric pathogen shedding in calves supplemented with colostrum during five days after birth compared to calves not supplemented with colostrum. The colostrum supplementation was the previously frozen colostrum added to the milk replacer from day 2-5 given to 39 calves, and 36 Control calves received a milk-derived supplement. There was no significant difference in preweaning weight gain between the treatment groups. Serum samples collected on days 2, 7, 14, and 21 indicated that total and antigen-specific IgG levels against rotavirus, coronavirus, and E. coli F5 were not significantly different between the treatment groups. Fecal samples taken on days 7, 14, and 21 were all negative for coronavirus and E. coli F5, whereas there were low levels of Cryptosporidia and a trend for low levels of rotavirus on day 14 in colostrum-supplemented compared to Control calves. Respiratory clinical signs, depressed attitude and body temperature tended to be reduced in colostrum-supplemented compared to Control calves. This study shows that, even in calves with good colostrum status and high plane of nutrition, there can be benefits of post-closure colostrum supplementation including reduced Cryptosporidia and rotavirus shedding and reduced respiratory disease.

Effect of supplementation of bioactive rich tree leaves on nutrient utilization, growth performance, methane emission and fatty acid profile in finisher lambs fed energy dense diet

To study the effect of supplementing bioactive rich tree foliages in energy dense diet on lamb production and tissue fatty acid profile, 24 weaner male lambs (∼90days old) were divided equally into 2 groups and fed complete feed blocks without (C) and with 6% Hardwickia binata (anjan tree) leaves (T). Feed blocks in both the groups consisted of 3.25% rumen bypass fat. Dry matter intake and plane of nutrition were comparable among the groups but digestibility of neutral and acid detergent fibre were lower (P<0.05) in T than C. Rumen fermentation attributes revealed higher (P<0.05) concentration and proportion of propionic acid and total volatile fatty acids in T compared to C. The metagenomic equivalent values of total methanogens and protozoa were lower (P<0.05) while, population of Butyrivibrio fibrisolvens was higher in T compared to C. Loss of metabolizable energy through methane was reduced by 4.6 percentage points in T than C which resulted in higher microbial nitrogen synthesis in T from methane mitigation. Subsequently, the average daily gain in lambs was improved by 5.9% in T compared to C. The fatty acid profile of Longissimus thoracis muscle revealed higher (P<0.05) C18:2c9t11 content in lambs of T group than C. Hence, from the present findings it can be concluded that inclusion of Hardwickia binata leaves at 6% level increased condensed and hydrolysable tannin content of the diet which modestly affected rumen fermentation resulting in reduced methane production and enhanced conjugated linoleic acid content in muscle tissue.

Influence of Maternal Nutrition and One-Carbon Metabolites Supplementation during Early Pregnancy on Bovine Fetal Small Intestine Vascularity and Cell Proliferation.

To investigate the effects of nutrient restriction and one-carbon metabolite (OCM) supplementation (folate, vitamin B12, methionine, and choline) on fetal small intestine weight, vascularity, and cell proliferation, 29 (n = 7 ± 1 per treatment) crossbred Angus beef heifers (436 ± 42 kg) were estrous synchronized and conceived by artificial insemination with female sexed semen from a single sire. Then, they were allotted randomly to one of four treatments in a 2 × 2 factorial arrangement with the main factors of nutritional plane [control (CON) vs. restricted feed intake (RES)] and OCM supplementation [without OCM (-OCM) or with OCM (+OCM)]. Heifers receiving the CON level of intake were fed to target an average daily gain of 0.45 kg/day, which would allow them to reach 80% of mature BW by calving. Heifers receiving the RES level of intake were fed to lose 0.23 kg/heifer daily, which mimics observed production responses in heifers that experience a diet and environment change during early gestation. Targeted heifer gain and OCM treatments were administered from d 0 to 63 of gestation, and then all heifers were fed a common diet targeting 0.45 kg/d gain until d 161 of gestation, when heifers were slaughtered, and fetal jejunum was collected. Gain had no effect (p = 0.17) on the fetal small intestinal weight. However, OCM treatments (p = 0.02) displayed less weight compared to the -OCM groups. Capillary area density was increased in fetal jejunal villi of RES - OCM (p = 0.02). Vascular endothelial growth factor receptor 2 (VEGFR2) positivity ratio tended to be greater (p = 0.08) in villi and was less in the crypts (p = 0.02) of the RES + OCM group. Cell proliferation decreased (p = 0.02) in villi and crypts of fetal jejunal tissue from heifers fed the RES + OCM treatment compared with all groups and CON - OCM, respectively. Spatial cell density increased in RES - OCM compared with CON + OCM (p = 0.05). Combined, these data show OCM supplementation can increase expression of VEGFR2 in jejunal villi, which will promote maintenance of the microvascular beds, while at the same time decreasing small intestine weight and crypt cell proliferation.

Influence of previous plane of nutrition on molecular mechanisms regulating the expression of urea and water metabolism related genes in the rumen and kidney of finishing crossbred Angus steers

This study aimed to understand how molecular mechanisms controlling water and urea metabolism at the finishing phase can be affected by previous plane of nutrition of crossbred Angus beef steers. Twenty-four (n = 24) animals were randomly distributed into either a moderate (MP) or high plane of nutrition during the background phase for 85 d. Animals were then blocked by their previous plane and were moved onto a 105-d finishing phase in a 2 × 2 factorial arrangement. The forage-finished group received only high-quality alfalfa hay, whereas the grain-fed group received a high grain diet (80% whole corn and 20% alfalfa hay). By the end of the finishing phase, animals were harvested and tissue samples from the rumen and kidney were collected. Changes in gene expression of aquaporins (AQP)-2, -3, -4, -7, ATP1A1, ATP1B1, SGK1, CLIC1 (kidney and rumen), UT-A1 (kidney only) and UT-B (rumen only), were assayed via real-time qPCR; 18S rRNA was used as an endogenous control. One-way ANOVA followed by Tukey's post hoc analysis was conducted. When animals were from MP, forage-finishing increased the relative abundance of AQP3 (P ≤ 0.05), AQP7 (P ≤ 0.05), ATP1B1 (P ≤ 0.05), and SGK1 (P ≤ 0.05) in the kidney when compared to grain-fed animals. In the rumen, for the MP group, AQP7 was differentially expressed in both treatments at the finishing phase (P ≤ 0.01), with forage-finished steers having the highest expression of AQP7. For the MP group, UT-B had a tendency of presenting a higher expression on grain-fed animals (P = 0.075). Overall, these results suggest that previous plane can impact expression of genes associated with water and urea metabolism during the finishing phase, namely AQP3, AQP7, ATP1B1, and SGK1 in the kidney, and AQP7 and UT-B in the rumen. The greatest impact observed on gene expression changes of investigated genes at the finishing phase was reflective of animals backgrounded on the moderate previous plane.

Developmental programming of reproduction in the female animal

Successful reproduction is a cornerstone in food animal industry in order to sustain food production for human. Therefore, various methods focusing on genetics and postnatal environment have been identified and applied to improve fertility in livestock. Yet there is evidence indicating that environmental factors during prenatal and/or neonatal life can also impact the function of reproductive system and fertility in the animals during adulthood, which is called the developmental programming of reproduction. The current review summarizes data associated with the developmental origins of reproduction in the female animals. In this regard, this review focuses on the effect of plane of nutrition, maternal body condition, hypoxia, litter size, maternal age, parity, level of milk production and milk components, lactocrine signaling, stress, thermal stress, exposure to androgens, endocrine disrupting chemicals, mycotoxins and pollutants, affliction with infection and inflammation, and maternal gut microbiota during prenatal and neonatal periods on the neuroendocrine system, puberty, health of reproductive organs and fertility in the female offspring. It is noteworthy that these prenatal and neonatal factors do not always exert their effects on the reproductive performance of the female by compromising the development of organs directly related to reproductive function such as hypothalamus, pituitary, ovary, oviduct and uterus. Since they can impair the development of non-reproductive organs and systems modulating reproductive function as well (e.g., metabolic system and level of milk yield in dairy animals). Furthermore, when these factors affect the epigenetics of the offspring, their adverse effects will not be limited to one generation and can transfer transgenerationally. Hence, pinpointing the factors influencing developmental programming of reproduction and considering them in management of livestock operations could be a potential strategy to help improve fertility in food animals.