膳食纤维类型与生长猪回肠和后肠微生物群落变化相关，并影响体外回肠和后肠发酵。

Type of Dietary Fiber Is Associated with Changes in Ileal and Hindgut Microbial Communities in Growing Pigs and Influences In Vitro Ileal and Hindgut Fermentation.

机构信息

School of Food and Advanced Technology, Massey University, Palmerston North, New Zealand.

Riddet Institute, Te Ohu Rangahau Kai, Massey University, Palmerston North, New Zealand.

出版信息

J Nutr. 2021 Oct 1;151(10):2976-2985. doi: 10.1093/jn/nxab228.

DOI:10.1093/jn/nxab228

PMID:34320183

Abstract

BACKGROUND

The degree of ileal organic matter (OM) fermentation appears to be comparable to hindgut fermentation in growing pigs.

OBJECTIVES

This study aimed to determine if dietary fiber sources with known different total gastrointestinal tract (GIT) fermentability in humans affect ileal and hindgut microbial communities and ileal fermentation in growing pigs used as an animal model for human adults.

METHODS

Male pigs (21 kg bodyweight; 9 wk old; PIC Camborough 46 × PIC boar 356L; n = 8/diet) were fed for 42 d a diet containing cellulose (CEL, low fermentability) as the sole fiber source (4.5%) or diets in which half of the CEL was replaced by moderately fermentable fiber, psyllium (PSY), or kiwifruit (KF) fiber. For each diet, terminal jejunal (substrate) and ileal (inoculum) digesta were collected from euthanized animals for in vitro ileal fermentation (2 h). Terminal ileal (substrate) and cecal (inoculum) digesta were used for in vitro hindgut fermentation (24 h). After in vitro fermentations, OM fermentation and short-chain fatty acid (SCFA) production were determined. Ileal digesta and feces were collected for microbial analysis. Data were analyzed by 2-factor ANOVA (diet × GIT region).

RESULTS

In vitro ileal OM fermentation was on average 22% and comparable to hindgut OM fermentation. Ileal and hindgut OM fermentation, SCFA production, and microbial community composition changed (P < 0.05) when CEL was partially replaced by KF or PSY. For instance, pigs fed the PSY diet had 3-fold higher (P ≤ 0.05) number of ileal and fecal bacteria than pigs fed the CEL and KF diets. Pigs fed the CEL diet had 4-fold higher (P ≤ 0.05) hindgut valeric acid production than pigs fed the other diets.

CONCLUSIONS

Ileal fermentation is quantitatively significant. Partial substitution of CEL with more fermentable fibers influences both ileal and hindgut microbial communities and the fermentation in growing pigs.

摘要

背景

回肠有机物（OM）的发酵程度似乎与生长猪的后肠发酵相当。

目的

本研究旨在确定人类已知具有不同全胃肠道（GIT）发酵能力的膳食纤维来源是否会影响生长猪的回肠和后肠微生物群落以及回肠发酵，生长猪被用作人类成人的动物模型。

方法

雄性猪（21 公斤体重；9 周龄； PIC Camborough 46× PIC 公猪 356L；n = 8/饮食）饲喂 42 天，日粮中含有纤维素（CEL，低发酵性）作为唯一纤维源（4.5%）或用中发酵纤维，车前子（PSY）或猕猴桃纤维代替一半 CEL 的日粮。对于每种饮食，从安乐死动物中收集终端空肠（底物）和回肠（接种物）内容物进行体外回肠发酵（2 小时）。使用终端回肠（底物）和盲肠（接种物）内容物进行体外后肠发酵（24 小时）。体外发酵后，测定 OM 发酵和短链脂肪酸（SCFA）的产生。收集回肠内容物和粪便进行微生物分析。数据通过 2 因素方差分析（饮食×GIT 区域）进行分析。

结果

体外回肠 OM 发酵平均为 22%，与后肠 OM 发酵相当。CEL 部分被 KF 或 PSY 替代时，回肠和后肠 OM 发酵、SCFA 产生和微生物群落组成发生变化（P <0.05）。例如，饲喂 PSY 饮食的猪的回肠和粪便细菌数量比饲喂 CEL 和 KF 饮食的猪高 3 倍（P≤0.05）。饲喂 CEL 饮食的猪的后肠戊酸产量比饲喂其他饮食的猪高 4 倍（P≤0.05）。