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Nononcogenic restoration of the intestinal barrier by E. coli–delivered human EGF
Mira Yu, Juil Kim, Jung Hoon Ahn, Yuseok Moon
Mira Yu, Juil Kim, Jung Hoon Ahn, Yuseok Moon
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Research Article Microbiology

Nononcogenic restoration of the intestinal barrier by E. coli–delivered human EGF

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Abstract

Although mucoactive proteins, such as epidermal growth factor (EGF), could improve clinical outcomes of intestinal ulcerative diseases, their gastrointestinal application is limited because of their proteolytic digestion or concerns about tumor promotion. In the present study, ATP-binding cassette (ABC) transporter–linked secretion of human EGF from probiotic Escherichia coli (EGF-EcN) was created to promote beneficial actions of the EGF receptor, which is notably attenuated in patients with intestinal ulcerative injuries. Preventive and postinjury treatment with EGF-EcN alleviated intestinal ulcers and other readouts of disease severity in murine intestinal ulcer models. EGF-EcN administration promoted the restitutive recovery of damaged epithelial layers, particularly via upward expansion of highly proliferating progenitor cells from the lower crypts. Along with the epithelial barrier benefit, EGF-EcN improved goblet cell–associated mucosal integrity, which controls the access of luminal microbiota to the underlying host tissues. Despite concern about the oncogenic action of EGF, EGF-EcN did not aggravate colitis-associated colon cancer; instead, it alleviated protumorigenic activities and improved barrier integrity in the lesions. All findings indicate that probiotic bacteria–based precision delivery of human EGF is a promising mucosal intervention against gastrointestinal ulcers and malignant distress through crypt-derived barrier restoration.

Authors

Mira Yu, Juil Kim, Jung Hoon Ahn, Yuseok Moon

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Figure 10

Actions of EGF-EcN in colitis-associated tumorigenesis.

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Actions of EGF-EcN in colitis-associated tumorigenesis.
Tumors were indu...
Tumors were induced in C57BL/6 mice by using AOM/DSS. (A) Experimental procedure of AOM/DSS exposure along with EcN and EGF-EcN treatment (n = 10–20). (B) Stool samples from mice were collected on the final day of the 12-week exposure as indicated in the treatment regime (A). Colonized bacteria were estimated based on PCR with EcN-specific primers for Muta5/6. (C) Mouse body weight change was monitored at indicated times after AOM injection. The asterisks in the graph represent significant differences from mass changes in the AOM/DSS treatment group at each time point (*P < 0.05 using 2-tailed, unpaired Student’s t test). (D) Colon length was compared. Results of quantitative analyses of colon length (upper) and symptoms in the anus (lower) are demonstrated. (E) Luminal parts of the colorectum used to detect adenomatous polyps (left) and a magnified illustration of the distal rectum (right). (F and G) Tumor number (F) and tumor area (G) based on the observation presented in E. The asterisks in box-and-whisker plots (min to max) (D, F, and G) represent significant differences between 2 groups (*P < 0.05; **P < 0.01; ***P < 0.001; ns using 2-tailed, unpaired Student’s t test).

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