Evaluation and Quantification of Micro Epithelial Gaps in the Colonic Mucosa using Immunofluorescence Staining

Summary

Here, we describe a new method to visualize the specific location of where transcellular and paracellular permeability is enhanced in the inflamed colonic mucosa. In this assay, we apply a 10 kDa fluorescent dye conjugated to a lysine fixable dextran to visualize high permeability regions (HPR) in the colonic mucosa.

Abstract

Epithelial cells lining the intestinal mucosa create a physical barrier that separates the luminal content from the interstitium. Epithelial barrier impairment has been associated with the development of various pathologies such as inflammatory bowel diseases (IBD). In the inflamed mucosa, superficial erosions or micro-erosions that corrupt epithelial monolayers correspond to sites of high permeability. Several mechanisms have been implicated in the formation of micro-erosions including cell shedding and apoptosis. These micro-erosions often represent microscopic epithelial gaps randomly distributed in the colon. Visualization and quantification of those epithelial gaps has emerged as an important tool to investigate intestinal epithelial barrier function. Here, we describe a new method to visualize the specific location of where transcellular and paracellular permeability is enhanced in the inflamed colonic mucosa. In this assay, we apply a 10 kDa fluorescent dye conjugated to a lysine fixable dextran to visualize high permeability regions (HPR) in the colonic mucosa. Additional use of cell death markers revealed that HPR encompass apoptotic foci where epithelial extrusion/shedding occurs. The protocol described here provides a simple but effective approach to visualize and quantify micro-erosions in the intestine, which is a very useful tool in disease models, in which the intestinal epithelial barrier is compromised.

Introduction

The gastrointestinal (GI) mucosa creates a physical barrier that separates the extracellular environment and the internal host milieu, and is involved in the absorption of nutrients, water and electrolytes. The intestinal barrier encompasses a mucus layer constituted of glycoproteins, a monolayer of epithelial cells, and the underlying lamina propria are immune and stromal cells reside. Intestinal epithelial cells forming the physical barrier are linked together by different protein complexes, which includes the adherens junction (AJ), the tight junction (TJ) and the desmosomes (DMs). Impairment in the epithelial barrier function augments intestinal permeability and a....

Protocol

All procedures were reviewed and approved by the CINVESTAV Institutional Committee for Care and Use of Laboratory Animals (CICUAL).

1. Preparation of materials and reagents

1. Pre-warm Hartmann's solution (130 mM NaCl, 28 mM lactate, 4 mM KCl, 1.5 mM CaCl₂) to 37 °C while bubbling with 95% O₂/5% CO₂. Maintain physiological pH (7.4) for the solution.
2. For analyzing the passive paracellular permeability, prepare a working solution by di.......

Discussion

Epithelial homeostasis resulting from balancing cell proliferation and epithelial apoptosis maintains a proper and functional intestinal barrier. Many clinical disorders, such as IBD, are accompanied or characterized by alterations in intestinal permeability, inflammation of the mucosa and disruption of the epithelial homeostasis¹. The interplay between those processes is still highly controversial. Therefore, the development of new research approaches to properly investigate those processes is an.......

Materials

Name	Company	Catalog Number	Comments
Active Caspase-3 antibody (1:1000)	Cell signaling	9664	Cleaved caspase-3 (Asp175)(5AE1) Rabbit mAb
Alexa Fluor 488  anti rabbit (1:1000)	Invitrogen	A21206
Alexa Fluor 594 anti rat (1:1000)	Invitrogen	A21209
Confocal microscope (Leica TCS SP8x)	Leica		HyD detectors  and White Light Laser
E-Cadherin antibody (1:750)	Sigma	MABT26	Rat monoclonal Delma-1 antibody
Ethanol 70%	Generic
Fixable-Dextran	Invitrogen	D22914	Dextran, Alexa Fluor, 10,000 MW, anionic, fixable
FITC Dextran	Sigma	46944	Fluorescein isothiocyanate–dextran M. Wt. 4 kDa
Hartmann's Solution	PiSA	HT PiSA
Incubator (AutoFlow NU-8500)	Nuaire
Microplate reader (Tecan Infinite 200 PRO)	Tecan
Nunc F96 MicroWell Black and White Polystyrene Plate	ThermoFisher Scientific
Paraformaldehyde	Sigma	P6148
Phalloidin (1:1000)	Invitrogen	A12380	Alexa Fluor 568 Phalloidin
RITC Dextran	Sigma	R8881-100MG	Rhodamine B Isothiocyanate-Dextran. M. Wt. 10 kDa
Secondary antibodies (1:10000)	Jackson ImmunoResearch Laboratories		HRP-conjugated secondary antibodies
Suture threads	Generic		Braided silk and braided polyester surgical sutures are prefered.
ZO-1 (1:1000)	Invitrogen	40-2200	Rb anti-ZO-1