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The involvement of NF-κB/P38 pathways in Scutellaria baicalensis extracts attenuating of Escherichia coli K88-induced acute intestinal injury in weaned piglets

Published online by Cambridge University Press:  25 July 2019

Caiyun Huang
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Yubo Wang
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Xin He
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Ning Jiao
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Xin Zhang
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Kai Qiu
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Xiangshu Piao
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
Jingdong Yin*
Affiliation:
State Key Lab of Animal Nutrition, Department of Animal Nutrition, College of Animal Science & Technology, China Agricultural University, Beijing 100193, People’s Republic of China
*
*Corresponding author: Jingdong Yin, email yinjd@cau.edu.cn
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Abstract

The present study was carried out to evaluate the effect of dietary supplementation of Scutellaria baicalensis extracts (SBE) on intestinal health in terms of morphology, barrier integrity and immune responses in weaned piglets challenged with Escherichia coli K88. A total of seventy-two weaned piglets were assigned into two groups to receive a basal diet without including antibiotic additives or the basal diet supplemented 1000 mg SBE/kg diet for 14 d. On day 15, twelve healthy piglets from each group were selected to expose to oral administration of either 10 ml 1 × 109 colony-forming units of E. coli K88 or the vehicle control. After 48 h of E.coli K88 challenge, blood was sampled, and then all piglets were killed humanely for harvesting jejunal and ileal samples. Dietary supplementation of SBE significantly decreased diarrhoea frequency and improved feed conversion ratio (P < 0·05). SBE supplementation to E.coli K88-challenged piglets improved villous height and villous height/crypt depth (P < 0·05), recovered the protein expression of occludin and zonula occludens-2 in both the jejunum and ileum (P < 0·05), and mitigated the increases in plasma IL-1β, TNF-α, IL-6, IgA and IgG (P < 0·05). Meanwhile, dietary SBE effectively inhibited the stimulation of NF-κB, P38 and TNF-α as well as IL-1β in the small intestine of piglets challenged by E. coli K88 and prevented the activation of NF-κB/P38 signalling pathways (P < 0·05). Collectively, SBE supplementation can potently attenuate diarrhoea in weaning piglets and decrease inflammatory cytokine expressions through inhibiting the NF-κB and P38 signalling pathways.

Information

Type
Full Papers
Copyright
© The Authors 2019 
Figure 0

Table 1. Ingredients and nutrition levels of the basal diet (as-fed basis)

Figure 1

Table 2. Information of the primers used for the detection of mRNA specific for toll-like receptor 4 (TLR4), myeloid differentiation factor 88 (MyD88), NF-κB, IL-1β, TNF-α and β-actin

Figure 2

Table 3. Effects of Scutellaria baicalensis extracts (SBE) on growth performance and diarrhoea rate in weaned pigs (n 6 per group)(Mean values with pooled standard errors)

Figure 3

Fig. 1. Effects of Scutellaria baicalensis extracts (SBE) supplementation on small intestinal morphology in Escherichia coli K88-challenged piglets. VH, villous height; CD, crypt depth; VCR, villous height/crypt depth; CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

Figure 4

Fig. 2. Effects of Scutellaria baicalensis extracts (SBE) supplementation on plasma indices in Escherichia coli K88-challenged piglets. DAO, diamine oxidase; CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

Figure 5

Fig. 3. Effects of Scutellaria baicalensis extracts (SBE) supplementation on protein abundance of occludin and zonula occludens-2 (ZO-2) in jejunal and ileal mucosa in Escherichia coli K88-challenged piglets. The densitometric values of these proteins were normalised to β-actin. CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed with the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

Figure 6

Fig. 4. Effects of Scutellaria baicalensis extracts (SBE) supplementation on mRNA expression of NF-κB signalling pathway in jejunum and ileum in Escherichia coli K88-challenged piglets. All data were obtained by using real-time PCR and normalised to β-actin. TLR4, toll-like receptor 4; MyD88, myeloid differentiation factor 88; CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed with the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

Figure 7

Fig. 5. Effects of Scutellaria baicalensis extracts (SBE) supplementation on jejunal protein abundance of NF-κB and P38 signalling pathway in Escherichia coli K88-challenged piglets. The figure shows a Western blot of immunoprecipitated toll-like receptor 4 (TLR4), myeloid differentiation factor 88 (MyD88), NF-κB, P38, IL-1β, TNF-α and the densitometric values of these proteins normalised to β-actin. CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed with the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

Figure 8

Fig. 6. Effects of Scutellaria baicalensis extracts (SBE) supplementation on ileal protein abundance of NF-κB and P38 signalling pathway in Escherichia coli K88-challenged piglets. The figure shows a Western blot of immunoprecipitated toll-like receptor 4 (TLR4), myeloid differentiation factor 88 (MyD88), NF-κB, P38, IL-1β, TNF-α and the densitometric values of these proteins normalised to β-actin. CTRL, piglets were offered the antibiotic-free basal diet; SBE, piglets were offered SBE-containing diet; CTRL + K88, piglets fed with the basal diet were challenged with E. coli K88; SBE + K88, piglets offered SBE-containing diet were challenged with E. coli K88, n 6. *P < 0·05 as compared with the CTRL group. † P < 0·05 as compared with the CTRL + K88 group.

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