Computational Modeling of Claudin Structure and Function

Fuladi, Shadi; Jannat, Ridaka-Wal; Shen, Le; Weber, Christopher; Khalili‐Araghi, Fatemeh

doi:10.3390/ijms21030742

Cited by 15 publications

(29 citation statements)

References 69 publications

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“…In this study, the NE challenge led to the upregulation of the expression of the claudins (CLDN1 and CLDN5) but downregulated the expression of OCLD. Claudins determine the permeability of the space between 2 adjacent cells ( Fuladi et al., 2020 ). Therefore, a higher expression of claudins in the current study is an indication of a response of the birds to try to repair the damage that was evident because of the increased FITC-d.…”

Section: Discussionmentioning

confidence: 99%

Interactive effect of dietary calcium and phytase on broilers challenged with subclinical necrotic enteritis: part 2. Gut permeability, phytate ester concentrations, jejunal gene expression, and intestinal morphology

et al. 2020

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Calcium has the capacity to interact with phytate-P to form Ca-phytate complexes and decrease the ability of exogenous phytase to degrade phytic acid. This study investigated the hypothesis that high dietary Ca would impair gut permeability, phytate esters (inositol x-phosphate, IPx: IP3, IP4, IP5, and IP6) degradation, jejunal gene expression, and intestinal morphology. Ross 308 day-old male broilers (n = 768) were distributed into 48-floor pens each housing 16 birds in a factorial arrangement. Factors were NE challenge—no or yes; phytase level of 500 or 1,500 FTU/kg, and Ca level 0.6 or 1.0% starter, 0.5 or 0.9% grower, 0.4 or 0.8% finisher with available P in each phase. Challenged birds were gavaged with 3 field strains of Eimeria on day 9 and 10 8 CFU per mL of Clostridium perfringens Strain EHE-NE18 on day 14 and day 15. A phytase × Ca interaction was observed in the ileum for IP3 ( P < 0.01), IP4 ( P < 0.05), and IP6 ( P < 0.01). The IP3 and IP4 concentrations were similar for both doses of phytase in the presence of low Ca, but with high Ca, both increased significantly but to a greater extent when the high dose of phytase was used. While IP6 concentrations were low and similar between both doses of phytase at low Ca levels, increasing dietary Ca levels increased IP6 concentrations regardless of phytase dose, but the effect was greater in the low phytase diet. A phytase × Ca interaction was detected for vitamin D receptor (VDR) ( P < 0.05) expression where bird fed low phytase and low Ca recorded the highest expression of VDR, all other treatments being equivalent. The challenge decreased crypt depth to villus height ratio ( P < 0.001). Challenge birds had higher fluorescein isothiocyanate dextran ( P < 0.05) in blood compared with unchallenged birds. Thus, high Ca and high phytase, while not the best for IP6 destruction, did not lead to huge reductions in indicators of gut health.

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Section: Discussionmentioning

confidence: 99%

Interactive effect of dietary calcium and phytase on broilers challenged with subclinical necrotic enteritis: part 2. Gut permeability, phytate ester concentrations, jejunal gene expression, and intestinal morphology

et al. 2020

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“…In this Special Issue, an overview is given over the molecular structures of TJ proteins published to date, focusing also on structural motifs and the types of interactions between TJ proteins and their ligands involving these motifs [ 15 ]. The resolution of such structural features of TJ proteins may further be used to model interactions and to suggest the organization of these proteins to form TJ strands with dynamic barrier- and channel-forming properties [ 16 ]. The understanding of such interactions and motifs may furthermore allow the specification and development of new compounds targeting TJs.…”

Section: Tight Junction Barriers and Structuresmentioning

confidence: 99%

Special Issue on “The Tight Junction and Its Proteins: More than Just a Barrier”

Krug

Fromm

2020

IJMS

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For a long time, the tight junction (TJ) was known to form and regulate the paracellular barrier between epithelia and endothelial cell sheets. Starting shortly after the discovery of the proteins forming the TJ—mainly, the two families of claudins and TAMPs—several other functions have been discovered, a striking one being the surprising finding that some claudins form paracellular channels for small ions and/or water. This Special Issue covers numerous dedicated topics including pathogens affecting the TJ barrier, TJ regulation via immune cells, the TJ as a therapeutic target, TJ and cell polarity, the function of and regulation by proteins of the tricellular TJ, the TJ as a regulator of cellular processes, organ- and tissue-specific functions, TJs as sensors and reactors to environmental conditions, and last, but not least, TJ proteins and cancer. It is not surprising that due to this diversity of topics and functions, the still-young field of TJ research is growing fast. This Editorial gives an introduction to all 43 papers of the Special Issue in a structured topical order.

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“…Full-length CLDNs have been crystallized from detergent-solubilized recombinant proteins [ 10 ]. All the structures reported so far depict a monomeric structure although structural information has been extracted [ 10 ] and further used for in silico studies [ 26 ] in order to learn more of the TJ assembly, structure and function. Detergents are limited in their ability to maintain the natural oligomeric states of membrane proteins [ 27 , 28 ].…”

Section: Introductionmentioning

confidence: 99%

“…The basis for the lack of Cis- and Trans-interactions could be due to use of detergents appearing to disrupt key protein–lipid or protein–protein interactions fostered within the microenvironment of the membrane [ 40 , 41 ]. CLDN assembly in strands has been studied in silico (reviewed by Fuladi and colleagues [ 26 ]). Thus, the tertiary and quaternary structure of CLDNs remain theoretical, based almost entirely on in silico modeling [ 26 , 42 , 43 ].…”

Section: Introductionmentioning

confidence: 99%

“…CLDN assembly in strands has been studied in silico (reviewed by Fuladi and colleagues [ 26 ]). Thus, the tertiary and quaternary structure of CLDNs remain theoretical, based almost entirely on in silico modeling [ 26 , 42 , 43 ]. In particular, Fuladi et al propose that some of the in silico models are not compatible with experimental studies [ 26 ].…”

Section: Introductionmentioning

confidence: 99%

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Chimeric Claudins: A New Tool to Study Tight Junction Structure and Function

Taylor

Warner

Mendoza

et al. 2021

IJMS

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The tight junction (TJ) is a structure composed of multiple proteins, both cytosolic and membranal, responsible for cell–cell adhesion in polarized endothelium and epithelium. The TJ is intimately connected to the cytoskeleton and plays a role in development and homeostasis. Among the TJ’s membrane proteins, claudins (CLDNs) are key to establishing blood–tissue barriers that protect organismal physiology. Recently, several crystal structures have been reported for detergent extracted recombinant CLDNs. These structural advances lack direct evidence to support quaternary structure of CLDNs. In this article, we have employed protein-engineering principles to create detergent-independent chimeric CLDNs, a combination of a 4-helix bundle soluble monomeric protein (PDB ID: 2jua) and the apical—50% of human CLDN1, the extracellular domain that is responsible for cell–cell adhesion. Maltose-binding protein-fused chimeric CLDNs (MBP-CCs) used in this study are soluble proteins that retain structural and functional aspects of native CLDNs. Here, we report the biophysical characterization of the structure and function of MBP-CCs. MBP-fused epithelial cadherin (MBP-eCAD) is used as a control and point of comparison of a well-characterized cell-adhesion molecule. Our synthetic strategy may benefit other families of 4-α-helix membrane proteins, including tetraspanins, connexins, pannexins, innexins, and more.

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Computational Modeling of Claudin Structure and Function

Cited by 15 publications

References 69 publications

Interactive effect of dietary calcium and phytase on broilers challenged with subclinical necrotic enteritis: part 2. Gut permeability, phytate ester concentrations, jejunal gene expression, and intestinal morphology

Interactive effect of dietary calcium and phytase on broilers challenged with subclinical necrotic enteritis: part 2. Gut permeability, phytate ester concentrations, jejunal gene expression, and intestinal morphology

Special Issue on “The Tight Junction and Its Proteins: More than Just a Barrier”

Chimeric Claudins: A New Tool to Study Tight Junction Structure and Function

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