Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus

Juan Diego Naranjo; Lindsey T. Saldi; Eric Sobieski; Lina M. Quijan; Ryan C. Hil; Patrick G. Cha; Crisanto Torres; Jenna L. Dzik; Madeline C. Crame; Yoojin C. Le; Rohit Das; Anant K. Bajw; Rania Nossair; Molly Klimak; Lucile Marchal; Shil Patel; Sachin S. Velanka; Kirk C. Hanse; Kevin McGrath; Stephen F. Badyl

doi:10.1126/sciadv.aba4526

Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus

Juan Diego Naranjo, Lindsey T. Saldi, Eric Sobieski, Lina M. Quijan, Ryan C. Hil, Patrick G. Cha, Crisanto Torres, Jenna L. Dzik, Madeline C. Crame, Yoojin C. Le, Rohit Das, Anant K. Bajw, Rania Nossair, Molly Klimak, Lucile Marchal, Shil Patel, Sachin S. Velanka, Kirk C. Hanse, Kevin McGrath, Stephen F. Badyl

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Chronic inflammatory gastric reflux alters the esophageal microenvironment and induces metaplastic transformation of the epithelium, a precancerous condition termed Barrett's esophagus (BE). The microenvironmental niche, which includes the extracellular matrix (ECM), substantially influences cell phenotype. ECM harvested from normal porcine esophageal mucosa (eECM) was formulated as a mucoadhesive hydrogel, and shown to largely retain basement membrane and matrix-cell adhesion proteins. Dogs with BE were treated orally with eECM hydrogel and omeprazole (n = 6) or omeprazole alone (n = 2) for 30 days. eECM treatment resolved esophagitis, reverted metaplasia to a normal, squamous epithelium in four of six animals, and downregulated the pro-inflammatory tumor necrosis factor-α+ cell infiltrate compared to control animals. The metaplastic tissue in control animals (n = 2) did not regress. The results suggest that in vivo alteration of the microenvironment with a site-appropriate, mucoadhesive ECM hydrogel can mitigate the inflammatory and metaplastic response in a dog model of BE.

Original language	English
Article number	eaba4526
Journal	Science Advances
Volume	6
Issue number	27
DOIs	https://doi.org/10.1126/sciadv.aba4526
State	Published - Jul 2020
Externally published	Yes

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10.1126/sciadv.aba4526

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Naranjo, J. D., Saldi, L. T., Sobieski, E., Quijan, L. M., Hil, R. C., Cha, P. G., Torres, C., Dzik, J. L., Crame, M. C., Le, Y. C., Das, R., Bajw, A. K., Nossair, R., Klimak, M., Marchal, L., Patel, S., Velanka, S. S., Hanse, K. C., McGrath, K., & Badyl, S. F. (2020). Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus. Science Advances, 6(27), Article eaba4526. https://doi.org/10.1126/sciadv.aba4526

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title = "Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus",

abstract = "Chronic inflammatory gastric reflux alters the esophageal microenvironment and induces metaplastic transformation of the epithelium, a precancerous condition termed Barrett's esophagus (BE). The microenvironmental niche, which includes the extracellular matrix (ECM), substantially influences cell phenotype. ECM harvested from normal porcine esophageal mucosa (eECM) was formulated as a mucoadhesive hydrogel, and shown to largely retain basement membrane and matrix-cell adhesion proteins. Dogs with BE were treated orally with eECM hydrogel and omeprazole (n = 6) or omeprazole alone (n = 2) for 30 days. eECM treatment resolved esophagitis, reverted metaplasia to a normal, squamous epithelium in four of six animals, and downregulated the pro-inflammatory tumor necrosis factor-α+ cell infiltrate compared to control animals. The metaplastic tissue in control animals (n = 2) did not regress. The results suggest that in vivo alteration of the microenvironment with a site-appropriate, mucoadhesive ECM hydrogel can mitigate the inflammatory and metaplastic response in a dog model of BE.",

author = "Naranjo, {Juan Diego} and Saldi, {Lindsey T.} and Eric Sobieski and Quijan, {Lina M.} and Hil, {Ryan C.} and Cha, {Patrick G.} and Crisanto Torres and Dzik, {Jenna L.} and Crame, {Madeline C.} and Le, {Yoojin C.} and Rohit Das and Bajw, {Anant K.} and Rania Nossair and Molly Klimak and Lucile Marchal and Shil Patel and Velanka, {Sachin S.} and Hanse, {Kirk C.} and Kevin McGrath and Badyl, {Stephen F.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 The Authors, some rights reserved.",

year = "2020",

month = jul,

doi = "10.1126/sciadv.aba4526",

language = "English",

volume = "6",

journal = "Science Advances",

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Naranjo, JD, Saldi, LT, Sobieski, E, Quijan, LM, Hil, RC, Cha, PG, Torres, C, Dzik, JL, Crame, MC, Le, YC, Das, R, Bajw, AK, Nossair, R, Klimak, M, Marchal, L, Patel, S, Velanka, SS, Hanse, KC, McGrath, K & Badyl, SF 2020, 'Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus', Science Advances, vol. 6, no. 27, eaba4526. https://doi.org/10.1126/sciadv.aba4526

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T1 - Esophageal extracellular matrix hydrogel mitigates metaplastic change in a dog model of Barrett's esophagus

AU - Naranjo, Juan Diego

AU - Saldi, Lindsey T.

AU - Sobieski, Eric

AU - Quijan, Lina M.

AU - Hil, Ryan C.

AU - Cha, Patrick G.

AU - Torres, Crisanto

AU - Dzik, Jenna L.

AU - Crame, Madeline C.

AU - Le, Yoojin C.

AU - Das, Rohit

AU - Bajw, Anant K.

AU - Nossair, Rania

AU - Klimak, Molly

AU - Marchal, Lucile

AU - Patel, Shil

AU - Velanka, Sachin S.

AU - Hanse, Kirk C.

AU - McGrath, Kevin

AU - Badyl, Stephen F.

PY - 2020/7

Y1 - 2020/7

N2 - Chronic inflammatory gastric reflux alters the esophageal microenvironment and induces metaplastic transformation of the epithelium, a precancerous condition termed Barrett's esophagus (BE). The microenvironmental niche, which includes the extracellular matrix (ECM), substantially influences cell phenotype. ECM harvested from normal porcine esophageal mucosa (eECM) was formulated as a mucoadhesive hydrogel, and shown to largely retain basement membrane and matrix-cell adhesion proteins. Dogs with BE were treated orally with eECM hydrogel and omeprazole (n = 6) or omeprazole alone (n = 2) for 30 days. eECM treatment resolved esophagitis, reverted metaplasia to a normal, squamous epithelium in four of six animals, and downregulated the pro-inflammatory tumor necrosis factor-α+ cell infiltrate compared to control animals. The metaplastic tissue in control animals (n = 2) did not regress. The results suggest that in vivo alteration of the microenvironment with a site-appropriate, mucoadhesive ECM hydrogel can mitigate the inflammatory and metaplastic response in a dog model of BE.

AB - Chronic inflammatory gastric reflux alters the esophageal microenvironment and induces metaplastic transformation of the epithelium, a precancerous condition termed Barrett's esophagus (BE). The microenvironmental niche, which includes the extracellular matrix (ECM), substantially influences cell phenotype. ECM harvested from normal porcine esophageal mucosa (eECM) was formulated as a mucoadhesive hydrogel, and shown to largely retain basement membrane and matrix-cell adhesion proteins. Dogs with BE were treated orally with eECM hydrogel and omeprazole (n = 6) or omeprazole alone (n = 2) for 30 days. eECM treatment resolved esophagitis, reverted metaplasia to a normal, squamous epithelium in four of six animals, and downregulated the pro-inflammatory tumor necrosis factor-α+ cell infiltrate compared to control animals. The metaplastic tissue in control animals (n = 2) did not regress. The results suggest that in vivo alteration of the microenvironment with a site-appropriate, mucoadhesive ECM hydrogel can mitigate the inflammatory and metaplastic response in a dog model of BE.

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