Impact of Early Life Nutrition on Immune System Development and Related Health Outcomes in Later Life

2021 ◽  
Keyword(s):  
Immune System ◽  
Health Outcomes ◽  
Early Life ◽  
System Development ◽  
Later Life ◽  
Immune System Development

Pain and immunity

2021 ◽  
pp. 67-71
Author(s):  
Simon Beggs
Keyword(s):  
Nervous System ◽  
Immune System ◽  
Early Life ◽  
System Development ◽  
Later Life ◽  
Nervous System Development ◽  
Neuronal Function ◽  
Neuronal Homeostasis ◽  
Neuroimmune Interactions ◽  
The Central Nervous System

The central nervous system (CNS) and immune system are inextricably linked. The complexity of their interactions is still being unraveled, but the list of processes mediated wholly or in part by neuroimmune interactions continues to grow. The influence of the immune system is crucial for normal nervous system development both pre- and postnatally, for maintaining neuronal homeostasis in the mature CNS and modulating synaptic plasticity. Aberrations in this crosstalk have been implicated in many neurodevelopmental and psychiatric disorders. It is not feasible to explore neuronal function at any point in the lifespan, in health or disease, without considering the influence of the immune system. In the adult animal it is now well established that pain chronicity is maintained by immune influence upon the neuronal nociceptive system, although, fascinatingly, there is now evidence for a marked sexual dimorphism in how the immune and nervous systems interact. This holds true for pain in early life, where the two still-developing systems provide a very different environment to mediate nociception and pain. Of particular interest is how the immune system and sex interact to early life painful events to prime pain responses in later life.

scholarly journals Early-Life Intervention Using Fecal Microbiota Combined with Probiotics Promotes Gut Microbiota Maturation, Regulates Immune System Development, and Alleviates Weaning Stress in Piglets

2020 ◽  
Vol 21 (2) ◽  
pp. 503 ◽  
Author(s):  
Quanhang Xiang ◽  
Xiaoyu Wu ◽  
Ye Pan ◽  
Liu Wang ◽  
Chenbin Cui ◽  
...  
Keyword(s):  
Immune System ◽  
Gut Microbiota ◽  
Relative Abundance ◽  
Early Life ◽  
System Development ◽  
Fecal Microbiota ◽  
Microbial Colonization ◽  
Life Period ◽  
Weaning Stress ◽  
Immune System Development

Previous studies have suggested that immune system development and weaning stress are closely related to the maturation of gut microbiota. The early-life period is a “window of opportunity” for microbial colonization, which potentially has a critical impact on the development of the immune system. Fecal microbiota transplantation (FMT) and probiotics are often used to regulate gut microbial colonization. This study aims to test whether early intervention with FMT using fecal microbiota from gestation sows combined with Clostridium butyricum and Saccharomyces boulardii (FMT-CS) administration could promote the maturation of gut microbiota and development of immune system in piglets. Piglets were assigned to control (n = 84) and FMT-CS treatment (n = 106), which were treated with placebo and bacterial suspension during the first three days after birth, respectively. By 16S rRNA gene sequencing, we found that FMT-CS increased the α-diversity and reduced the unweighted UniFrac distances of the OTU community. Besides, FMT-CS increased the relative abundance of beneficial bacteria, while decreasing that of opportunistic pathogens. FMT-CS also enhanced the relative abundance of genes related to cofactors and vitamin, energy, and amino acid metabolisms during the early-life period. ELISA analysis revealed that FMT-CS gave rise to the plasma concentrations of IL-23, IL-17, and IL-22, as well as the plasma levels of anti-M.hyo and anti-PCV2 antibodies. Furthermore, the FMT-CS-treated piglets showed decreases in inflammation levels and oxidative stress injury, and improvement of intestinal barrier function after weaning as well. Taken together, our results suggest that early-life intervention with FMT-CS could promote the development of innate and adaptive immune system and vaccine efficacy, and subsequently alleviate weaning stress through promoting the maturation of gut microbiota in piglets.

scholarly journals The Suckling Rat as a Model for Immunonutrition Studies in Early Life

2012 ◽  
Vol 2012 ◽  
pp. 1-16 ◽  
Author(s):  
Francisco J. Pérez-Cano ◽  
Àngels Franch ◽  
Cristina Castellote ◽  
Margarida Castell
Keyword(s):  
Immune System ◽  
Early Life ◽  
Current Knowledge ◽  
System Development ◽  
Maternal Diet ◽  
Limited Data ◽  
Immune Development ◽  
Immune System Development ◽  
Experimental Approaches ◽  
Immunomodulatory Properties

Diet plays a crucial role in maintaining optimal immune function. Research demonstrates the immunomodulatory properties and mechanisms of particular nutrients; however, these aspects are studied less in early life, when diet may exert an important role in the immune development of the neonate. Besides the limited data from epidemiological and human interventional trials in early life, animal models hold the key to increase the current knowledge about this interaction in this particular period. This paper reports the potential of the suckling rat as a model for immunonutrition studies in early life. In particular, it describes the main changes in the systemic and mucosal immune system development during rat suckling and allows some of these elements to be established as target biomarkers for studying the influence of particular nutrients. Different approaches to evaluate these immune effects, including the manipulation of the maternal diet during gestation and/or lactation or feeding the nutrient directly to the pups, are also described in detail. In summary, this paper provides investigators with useful tools for better designing experimental approaches focused on nutrition in early life for programming and immune development by using the suckling rat as a model.

scholarly journals Osteopontin Levels in Human Milk Are Related to Maternal Nutrition and Infant Health and Growth

Nutrients ◽  
2021 ◽  
Vol 13 (8) ◽  
pp. 2670
Author(s):  
Aysegül Aksan ◽  
Izzet Erdal ◽  
Siddika Songül Yalcin ◽  
Jürgen Stein ◽  
Gülhan Samur
Keyword(s):  
Immune System ◽  
Breast Milk ◽  
Infant Health ◽  
Maternal Nutrition ◽  
System Development ◽  
Maternal Factors ◽  
Immune System Development ◽  
The Mean ◽  
Pregnancy Weight

Background: Osteopontin (OPN) is a glycosylated phosphoprotein found in human tissues and body fluids. OPN in breast milk is thought to play a major role in growth and immune system development in early infancy. Here, we investigated maternal factors that may affect concentrations of OPN in breast milk, and the possible associated consequences for the health of neonates. Methods: General characteristics, health status, dietary patterns, and anthropometric measurements of 85 mothers and their babies were recorded antenatally and during postnatal follow-up. Results: The mean concentration of OPN in breast milk was 137.1 ± 56.8 mg/L. Maternal factors including smoking, BMI, birth route, pregnancy weight gain, and energy intake during lactation were associated with OPN levels (p < 0.05). Significant correlations were determined between body weight, length, and head circumference, respectively, and OPN levels after one (r = 0.442, p = < 0.001; r = −0.284, p = < 0.001; r = −0.392, p = < 0.001) and three months (r = 0.501, p = < 0.001; r = −0.450, p = < 0.001; r = −0.498, p = < 0.001) of lactation. A negative relation between fever-related infant hospitalizations from 0–3 months and breast milk OPN levels (r = −0.599, p < 0.001) was identified. Conclusions: OPN concentrations in breast milk differ depending on maternal factors, and these differences can affect the growth and immune system functions of infants. OPN supplementation in infant formula feed may have benefits and should be further investigated.

scholarly journals 398 Towards new feeding approaches for optimizing nutritional status, immunity and host-microbiota interactions in neonatal and weaned piglets

2020 ◽  
Vol 98 (Supplement_4) ◽  
pp. 181-181
Author(s):  
Martin Lessard ◽  
Mylène Blais ◽  
Guylaine Talbot ◽  
J Jacques Matte ◽  
Ann Letellier ◽  
...  
Keyword(s):  
Immune Response ◽  
Immune System ◽  
Intestinal Microbiota ◽  
System Development ◽  
Feed Additives ◽  
Epithelial Cell Line ◽  
Host Immune System ◽  
Gut Health ◽  
Weaned Piglets ◽  
Immune System Development

Abstract Lactation, feeding conditions, microbial interventions and piglet growth in the first few weeks of life have important impact on the intestinal microbiota establishment and immune system development of piglets. Indeed, colostrum and milk contain various bioactive components such as immune factors, antimicrobial peptides and oligosaccharides that contribute to maintain intestinal homeostasis and regulate interactions between microbiota and host immune system. Recent results revealed that low birth weight piglet (LBWP) with poor weight gain during the first two weeks of life develop different intestinal microbiota and immune response profiles compared to high BWP (HBWP) littermates. Consequently, piglets within litters may have different resilience to infections after weaning and benefit from feed additives in a specific manner. A study has been performed to evaluate the potential of bovine colostrum extract (BC) as replacement to plasma proteins for improving gut health and resilience to Salmonella infection in piglets. Results revealed that in weaned piglets fed BC, intestinal microbiota was differently modulated and bacterial dysbiosis induced by Salmonella was restored faster. Moreover, expression of genes involved in innate immunity such as β-defensin-2 and glutathione peroxidase-2 was respectively down- and up-regulated in BC fed piglets. A combination of dietary supplementation with BC, cupper and vitamins A and D has also been tested in LBWP and HBWP, and there is clear evidence that BC in combination with other feed additives promote growth and gut health in both LBWP and HBWP. The porcine intestinal epithelial cell line IPEC-J2 was used to better understand the functional properties of BC. Results indicated that BC improves wound healing, enhances barrier function and modulates the expression of several genes involved in innate immune response. Finally, as microbial intervention, the potential of fecal transplantation to modulate intestinal microbiota and immune system development of piglets is under investigation and will be discussed.

scholarly journals VOLARE: Visual analysis of disease-associated microbiome-immune system interplay

2018 ◽  
Author(s):  
Janet C. Siebert ◽  
Charles Preston Neff ◽  
Jennifer M. Schneider ◽  
EmiLie H. Regner ◽  
Neha Ohri ◽  
...  
Keyword(s):  
Immune System ◽  
Web Application ◽  
Visual Analysis ◽  
System Development ◽  
Patient Specific ◽  
Domain Experts ◽  
Immune System Development ◽  
Interactive Environment ◽  
System Logs ◽  
Linear Regressions

AbstractBackgroundRelationships between specific microbes and proper immune system development, composition, and function have been reported in a number of studies. However, researchers have discovered only a fraction of the likely relationships. High-dimensional “omic” methodologies such as 16S ribosomal RNA (rRNA) sequencing and Time-of-flight mass cytometry (CyTOF) immunophenotyping generate data that support generation of hypotheses, with the potential to identify additional relationships at a level of granularity ripe for further experimentation. Pairwise linear regressions between microbial and host immune features is one approach for quantifying relationships between “omes”, and the differences in these relationships across study cohorts or arms. This approach yields a top table of candidate results. However, the top table alone lacks the detail that domain experts need to vet candidate results for follow-up experiments.ResultsTo support this vetting, we developed VOLARE (Visualization Of LineAr Regression Elements), a web application that integrates a searchable top table, small in-line graphs illustrating the fitted models, a network summarizing the top table, and on-demand detailed regression plots showing full sample-level detail. We applied VOLARE to three case studies—microbiome:cytokine data from fecal samples in HIV, microbiome:cytokine data in inflammatory bowel disease and spondyloarthritis, and microbiome:immune cell data from gut biopsies in HIV. We present both patient-specific phenomena and relationships that differ by disease state. We also analyzed interaction data from system logs to characterize usage scenarios. This log analysis revealed that, in using VOLARE, domain experts frequently generated detailed regression plots, suggesting that this detail aids the vetting of results.ConclusionsSystematically integrating microbe:immune cell readouts through pairwise linear regressions and presenting the top table in an interactive environment supports the vetting of results for scientific relevance. VOLARE allows domain experts to control the analysis of their results, screening dozens of candidate relationships with ease. This interactive environment transcends the limitations of a static top table.

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