New Insights and Evidence on “Food Intolerances”: Non-Celiac Gluten Sensitivity and Nickel Allergic Contact Mucositis

Greco, Nicoletta; Pisano, Annalinda; Mezzatesta, Laura; Pettinelli, M. E.; Meacci, Arianna; Pignataro, Maria Gemma; Giordano, Carla; Picarelli, Antonio

doi:10.3390/nu15102353

Cited by 4 publications

(4 citation statements)

References 28 publications

(41 reference statements)

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“…Considering that nickel ions appear to be the most efficient in terms of eliciting fluorescence signals and that they are naturally present in many food matrices, the ability of the whole-cell system to detect Ni ions in food was tested. For this, the pPr HSP17.6aGFP -engineered protoplasts were tested against various food matrices, known to be “high-nickel foods” (canned peeled tomatoes, cocoa powder, ground tea leaves, oat flour) or “low-nickel foods”, namely bread wheat flour type 00, which is the most refined bread wheat flour [ 15 , 16 , 17 ]. All the food matrices were tested after adding exogenous nickel ions.…”

Section: Resultsmentioning

confidence: 99%

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Development of a Whole-Cell System Based on the Use of Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

De Caroli,

Perrotta,

Rampino

2024

IJMS

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Heavy metals are dangerous contaminants that constitute a threat to human health because they persist in soils and are easily transferred into the food chain, causing damage to human health. Among heavy metals, nickel appears to be one of the most dangerous, being responsible for different disorders. Public health protection requires nickel detection in the environment and food chains. Biosensors represent simple, rapid, and sensitive methods for detecting nickel contamination. In this paper, we report on the setting up a whole-cell-based system, in which protoplasts, obtained from Nicotiana tabacum leaves, were used as transducers to detect the presence of heavy metal ions and, in particular, nickel ions. Protoplasts were genetically modified with a plasmid containing the Green Fluorescent Protein reporter gene (GFP) under control of the promoter region of a sunflower gene coding for a small Heat Shock Protein (HSP). Using this device, the presence of heavy metal ions was detected. Thus, the possibility of using this whole-cell system as a novel tool to detect the presence of nickel ions in food matrices was assessed.

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Section: Resultsmentioning

confidence: 99%

“…Such an advancement would play an important role in improving future food analysis. The food matrices utilized in this work were chosen mostly on the basis of their already known nickel content, according to their classification or as “high-Ni foods” or as “low-Ni foods” [ 15 , 17 , 23 , 24 , 25 ].…”

Section: Discussionmentioning

confidence: 99%

Development of a Whole-Cell System Based on the Use of Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

De Caroli,

Perrotta,

Rampino

2024

IJMS

View full text Add to dashboard Cite

show abstract

“…Considering that systemic nickel allergy syndrome affects a large part of population, the creation of a more sensitive and effective tool for the rapid and in situ detection of high concentration of Ni ions in food could play an important role for future improvements in food analysis. Food matrices utilized in this work were chosen mostly on the basis of their already known nickel content, according to their classification or as "high Ni foods" or as "low Ni foods" [15,17,[23][24][25].…”

Section: Discussionmentioning

confidence: 99%

“…Considering that nickel ions appear the most efficient in eliciting fluorescence signal and that they are naturally present in many food matrices, the ability of the whole-cell system to detect Ni ions in food was tested. For this, the pPrHSP17.6aGFP engineered protoplasts were challenged against various food matrices, known to be "high nickel foods" (canned peeled tomatoes, cocoa powder, grounded tea leaves, oat flour) or "low nickel foods", namely bread wheat flour type 00, the most refined bread wheat flour [15][16][17]. All the food matrices were tested after adding exogenous nickel ions.…”

Section: Nickel Ions Detection In Different Food Matricesmentioning

confidence: 99%

Development of a Whole-Cell System Based on Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

De Caroli,

Perrotta,

Rampino

2024

Preprint

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Heavy metals are dangerous contaminants constituting a threat to human health because they persist in soils and are easily transferred into the food chain, causing damages to human health. Among heavy metals, nickel appears to be one of the most dangerous responsible for different disorders. Public health protection requires nickel detection in environment and food chains; a simple, rapid and sensitive method to detect nickel contamination is represented by biosensors. In this paper we report the setup of a whole-cell based system, in which protoplasts, obtained from Nicotiana tabacum leaves, were used as transducers to detect the presence of heavy metal ions and, in particular, nickel ions. Protoplasts were genetically modified with a plasmid containing the GFP reporter gene under the promoter region of a sunflower small HSP gene control. By this device the presence of heavy metal ions was detected. Thus, the possibility to use this whole-cell system as a novel tool to detect the presence of nickel ions in food matrices was assessed.

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Glutamine Supplementation as a Novel Metabolic Therapeutic Strategy for LIG3-Dependent Chronic Intestinal Pseudo-obstruction

Diquigiovanni,

Rizzardi,

Cataldi-Stagetti

et al. 2024

Gastroenterology

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New Insights and Evidence on “Food Intolerances”: Non-Celiac Gluten Sensitivity and Nickel Allergic Contact Mucositis

Cited by 4 publications

References 28 publications

Development of a Whole-Cell System Based on the Use of Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

Development of a Whole-Cell System Based on the Use of Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

Development of a Whole-Cell System Based on Genetically Modified Protoplasts to Detect Nickel Ions in Food Matrices

Glutamine Supplementation as a Novel Metabolic Therapeutic Strategy for LIG3-Dependent Chronic Intestinal Pseudo-obstruction

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