Metabolic and Microbial Dysregulation in Preterm Infants with Neonatal Respiratory Distress Syndrome: An Early Developmental Perspective
Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrol...
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| Published in | Journal of proteome research Vol. 23; no. 8; pp. 3460 - 3468 |
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| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
02.08.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1535-3893 1535-3907 1535-3907 |
| DOI | 10.1021/acs.jproteome.4c00114 |
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| Abstract | Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and collected fecal and serum specimens after birth. Longitudinal fecal sampling was conducted weekly for a month in NRDS neonates. NRDS neonates were characterized by notably reduced gestational ages and birth weights and a higher rate of asphyxia at birth relative to PTIs. Early postnatal disturbances in tryptophan metabolism were evident in the NRDS group, concomitant with elevated relative abundance of Haemophilus, Fusicatenibacter, and Vibrio. Integrative multiomics analyses revealed an inverse relationship between tryptophan concentrations and Blautia abundance. At one-week old, NRDS neonates exhibited cortisol regulation anomalies and augmented hepatic catabolism. Sequential microbial profiling revealed distinct gut microbiota evolution in NRDS subjects, characterized by a general reduction in potentially pathogenic bacteria. The acute perinatal stress of NRDS leads to mitochondrial compromise, hormonal imbalance, and delayed gut microbiota evolution. Despite the short duration of NRDS, its impact on neonatal development is significant and requires extended attention. |
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| AbstractList | Neonatal respiratory distress syndrome (NRDS) is one
of the most
severe respiratory disorders in preterm infants (PTIs) due to immature
lung development. To delineate the serum metabolic alterations and
gut microbiota variations in NRDS and assess their implications on
neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and
collected fecal and serum specimens after birth. Longitudinal fecal
sampling was conducted weekly for a month in NRDS neonates. NRDS neonates
were characterized by notably reduced gestational ages and birth weights
and a higher rate of asphyxia at birth relative to PTIs. Early postnatal
disturbances in tryptophan metabolism were evident in the NRDS group,
concomitant with elevated relative abundance of
Haemophilus
,
Fusicatenibacter
, and
Vibrio
.
Integrative multiomics analyses revealed an inverse relationship between
tryptophan concentrations and
Blautia
abundance.
At one-week old, NRDS neonates exhibited cortisol regulation anomalies
and augmented hepatic catabolism. Sequential microbial profiling revealed
distinct gut microbiota evolution in NRDS subjects, characterized
by a general reduction in potentially pathogenic bacteria. The acute
perinatal stress of NRDS leads to mitochondrial compromise, hormonal
imbalance, and delayed gut microbiota evolution. Despite the short
duration of NRDS, its impact on neonatal development is significant
and requires extended attention. Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and collected fecal and serum specimens after birth. Longitudinal fecal sampling was conducted weekly for a month in NRDS neonates. NRDS neonates were characterized by notably reduced gestational ages and birth weights and a higher rate of asphyxia at birth relative to PTIs. Early postnatal disturbances in tryptophan metabolism were evident in the NRDS group, concomitant with elevated relative abundance of Haemophilus, Fusicatenibacter, and Vibrio. Integrative multiomics analyses revealed an inverse relationship between tryptophan concentrations and Blautia abundance. At one-week old, NRDS neonates exhibited cortisol regulation anomalies and augmented hepatic catabolism. Sequential microbial profiling revealed distinct gut microbiota evolution in NRDS subjects, characterized by a general reduction in potentially pathogenic bacteria. The acute perinatal stress of NRDS leads to mitochondrial compromise, hormonal imbalance, and delayed gut microbiota evolution. Despite the short duration of NRDS, its impact on neonatal development is significant and requires extended attention. Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and collected fecal and serum specimens after birth. Longitudinal fecal sampling was conducted weekly for a month in NRDS neonates. NRDS neonates were characterized by notably reduced gestational ages and birth weights and a higher rate of asphyxia at birth relative to PTIs. Early postnatal disturbances in tryptophan metabolism were evident in the NRDS group, concomitant with elevated relative abundance of , , and . Integrative multiomics analyses revealed an inverse relationship between tryptophan concentrations and abundance. At one-week old, NRDS neonates exhibited cortisol regulation anomalies and augmented hepatic catabolism. Sequential microbial profiling revealed distinct gut microbiota evolution in NRDS subjects, characterized by a general reduction in potentially pathogenic bacteria. The acute perinatal stress of NRDS leads to mitochondrial compromise, hormonal imbalance, and delayed gut microbiota evolution. Despite the short duration of NRDS, its impact on neonatal development is significant and requires extended attention. Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and collected fecal and serum specimens after birth. Longitudinal fecal sampling was conducted weekly for a month in NRDS neonates. NRDS neonates were characterized by notably reduced gestational ages and birth weights and a higher rate of asphyxia at birth relative to PTIs. Early postnatal disturbances in tryptophan metabolism were evident in the NRDS group, concomitant with elevated relative abundance of Haemophilus, Fusicatenibacter, and Vibrio. Integrative multiomics analyses revealed an inverse relationship between tryptophan concentrations and Blautia abundance. At one-week old, NRDS neonates exhibited cortisol regulation anomalies and augmented hepatic catabolism. Sequential microbial profiling revealed distinct gut microbiota evolution in NRDS subjects, characterized by a general reduction in potentially pathogenic bacteria. The acute perinatal stress of NRDS leads to mitochondrial compromise, hormonal imbalance, and delayed gut microbiota evolution. Despite the short duration of NRDS, its impact on neonatal development is significant and requires extended attention.Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To delineate the serum metabolic alterations and gut microbiota variations in NRDS and assess their implications on neonatal development, we enrolled 13 NRDS neonates and 12 PTIs and collected fecal and serum specimens after birth. Longitudinal fecal sampling was conducted weekly for a month in NRDS neonates. NRDS neonates were characterized by notably reduced gestational ages and birth weights and a higher rate of asphyxia at birth relative to PTIs. Early postnatal disturbances in tryptophan metabolism were evident in the NRDS group, concomitant with elevated relative abundance of Haemophilus, Fusicatenibacter, and Vibrio. Integrative multiomics analyses revealed an inverse relationship between tryptophan concentrations and Blautia abundance. At one-week old, NRDS neonates exhibited cortisol regulation anomalies and augmented hepatic catabolism. Sequential microbial profiling revealed distinct gut microbiota evolution in NRDS subjects, characterized by a general reduction in potentially pathogenic bacteria. The acute perinatal stress of NRDS leads to mitochondrial compromise, hormonal imbalance, and delayed gut microbiota evolution. Despite the short duration of NRDS, its impact on neonatal development is significant and requires extended attention. |
| Author | Guo, Tiantian Bian, Wenjie Wang, Jinglei Bi, Yanxu Gong, Pihua Li, Ran Guo, Shuming Miao, Xiaofeng He, Yukun Yu, Wenyi Xi, Jiangli Jin, Mengtong Ma, Xiaojun Gao, Zhancheng |
| AuthorAffiliation | Department of Pediatrics Department of Respiratory and Critical Care Medicine Shanxi Medical University Linfen Clinical Medicine Research Center Linfen Central Hospital Institute of Chest and Lung Diseases |
| AuthorAffiliation_xml | – name: Linfen Clinical Medicine Research Center – name: Shanxi Medical University – name: Institute of Chest and Lung Diseases – name: Department of Respiratory and Critical Care Medicine – name: Department of Pediatrics – name: Linfen Central Hospital |
| Author_xml | – sequence: 1 givenname: Yanxu surname: Bi fullname: Bi, Yanxu organization: Department of Pediatrics – sequence: 2 givenname: Wenyi surname: Yu fullname: Yu, Wenyi organization: Department of Respiratory and Critical Care Medicine – sequence: 3 givenname: Wenjie surname: Bian fullname: Bian, Wenjie organization: Department of Respiratory and Critical Care Medicine – sequence: 4 givenname: Mengtong surname: Jin fullname: Jin, Mengtong organization: Linfen Clinical Medicine Research Center – sequence: 5 givenname: Yukun surname: He fullname: He, Yukun organization: Department of Respiratory and Critical Care Medicine – sequence: 6 givenname: Jinglei surname: Wang fullname: Wang, Jinglei organization: Department of Pediatrics – sequence: 7 givenname: Xiaofeng surname: Miao fullname: Miao, Xiaofeng organization: Linfen Clinical Medicine Research Center – sequence: 8 givenname: Tiantian surname: Guo fullname: Guo, Tiantian organization: Linfen Clinical Medicine Research Center – sequence: 9 givenname: Xiaojun surname: Ma fullname: Ma, Xiaojun organization: Linfen Central Hospital – sequence: 10 givenname: Pihua surname: Gong fullname: Gong, Pihua organization: Department of Respiratory and Critical Care Medicine – sequence: 11 givenname: Ran surname: Li fullname: Li, Ran organization: Department of Respiratory and Critical Care Medicine – sequence: 12 givenname: Jiangli surname: Xi fullname: Xi, Jiangli email: 592881121@qq.com organization: Department of Pediatrics – sequence: 13 givenname: Shuming surname: Guo fullname: Guo, Shuming email: guoshuming_1970@163.com organization: Shanxi Medical University – sequence: 14 givenname: Zhancheng orcidid: 0000-0001-7415-1416 surname: Gao fullname: Gao, Zhancheng email: zcgao@bjmu.edu.cn organization: Shanxi Medical University |
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| Keywords | tryptophan metabolism preterm infants neonatal respiratory distress syndrome melatonin synthesis probiotics |
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| Snippet | Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To... Neonatal respiratory distress syndrome (NRDS) is one of the most severe respiratory disorders in preterm infants (PTIs) due to immature lung development. To... |
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| SubjectTerms | asphyxia blood serum catabolism cortisol distress evolution Feces - microbiology Female Gastrointestinal Microbiome Gestational Age Haemophilus Humans Hydrocortisone - blood Infant, Newborn Infant, Premature intestinal microorganisms lungs Male mitochondria multiomics neonatal development proteome Respiratory Distress Syndrome, Newborn - metabolism Respiratory Distress Syndrome, Newborn - microbiology tryptophan Tryptophan - blood Tryptophan - metabolism Vibrio |
| Title | Metabolic and Microbial Dysregulation in Preterm Infants with Neonatal Respiratory Distress Syndrome: An Early Developmental Perspective |
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