新生大鼠间歇性缺氧增加时肠道微生物群与炎症反应

Gut microbiome and inflammation in response to increasing intermittent hypoxia in the neonatal rat.

作者信息

Latkowska Magdalena, Cai Charles L, Mitrou Marina, Marcelino Matthew, Aranda Jacob V, Beharry Kay D

机构信息

Department of Pediatrics, Division of Neonatal-Perinatal Medicine, State University of New York, Downstate Health Sciences University, Brooklyn, NY, USA.

Department of Pediatrics, Downstate Medical Center, State University of New York, Brooklyn, NY, USA.

出版信息

Pediatr Res. 2024 Sep 19. doi: 10.1038/s41390-024-03569-7.

DOI:10.1038/s41390-024-03569-7

PMID:39300277

Abstract

BACKGROUND

Intermittent hypoxia (IH) and oxidative stress play key roles in gut dysbiosis and inflammation. We tested the hypothesis that increasing numbers of daily IH episodes cause microbiome dysbiosis and severe gut injury.

METHODS

Neonatal rats were exposed to hyperoxia (Hx), growth restriction, and IH. For IH, pups were exposed to 2-12 daily episodes from birth (P0) to postnatal day 7 (7D) or P0-P14 (14D), with or without recovery in room air (RA) until P21. Animals raised in RA from P0 to P21 served as normoxia controls. Stool was expressed from the large intestines for microbiome analysis, and tissue samples were assessed for histopathology and biomarkers of inflammation.

RESULTS

Hx and IH caused a significant reduction in the number and diversity of organisms. The severity of gut injury and levels of inflammatory cytokines and TLR4 increased, while total glutathione (tGSH) declined, with increasing daily IH episodes. The number of organisms correlated with the villi number (p < 0.05) and tGSH depletion (p < 0.001).

CONCLUSIONS

The critical number of daily IH episodes that the newborn gut may sustain is 6, beyond which irreversible damage occurs. The immature gut is highly susceptible to IH-induced injury, and IH may contribute to pathological outcomes in the immature gut.

IMPACT STATEMENT

The neonatal gut at birth is highly susceptible to intermittent hypoxia (IH) injury. 2. IH causes gut dysbiosis, inflammation, and glutathione depletion. 3. The severity of gut injury worsens as a function of increasing daily IH episodes. 4. The critical number of daily IH episodes that the newborn gut may sustain is 6, beyond which irreversible damage occurs.

摘要

背景

间歇性低氧（IH）和氧化应激在肠道微生物群失调和炎症中起关键作用。我们验证了这样一个假设，即每日IH发作次数增加会导致微生物群失调和严重的肠道损伤。

方法

将新生大鼠暴露于高氧（Hx）、生长受限和IH环境中。对于IH，幼崽从出生（P0）到出生后第7天（7D）或P0 - P14（14D）每天暴露于2 - 12次发作中，有或没有在室内空气（RA）中恢复直至P21。从P0到P21在RA中饲养的动物作为常氧对照。从大肠中挤出粪便进行微生物群分析，并评估组织样本的组织病理学和炎症生物标志物。

结果

Hx和IH导致生物体数量和多样性显著减少。随着每日IH发作次数增加，肠道损伤的严重程度、炎性细胞因子和TLR4水平升高，而总谷胱甘肽（tGSH）下降。生物体数量与绒毛数量（p < 0.05）和tGSH消耗（p < 0.001）相关。

结论

新生肠道可能承受的每日IH发作的临界次数为6次，超过该次数会发生不可逆损伤。未成熟的肠道对IH诱导的损伤高度敏感，且IH可能导致未成熟肠道出现病理结果。

影响声明

出生时的新生肠道对间歇性低氧（IH）损伤高度敏感。2. IH导致肠道微生物群失调、炎症和谷胱甘肽消耗。3. 肠道损伤的严重程度随着每日IH发作次数增加而恶化。4. 新生肠道可能承受的每日IH发作的临界次数为6次，超过该次数会发生不可逆损伤。

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新生大鼠间歇性缺氧增加时肠道微生物群与炎症反应

Gut microbiome and inflammation in response to increasing intermittent hypoxia in the neonatal rat.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

IMPACT STATEMENT

背景

方法

结果

结论

影响声明

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