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| This article is original by Translational Medicine. Please indicate the source for reprinting. Author: Ashley Guide: Intestinal flora plays a key role in digestion and prevention of infection . Recent studies have proved that type A immunoglobulin, or IgA antibody for short, also plays an important role in fine-tuning the balance between the human body and the intestinal flora in the human immune system . This research not only establishes a basic understanding of the immune system in the intestine, but can also contribute to the development of vaccines . Bacteria living in the intestine are composed of approximately 500-1000 different species . They constitute the intestinal flora and play a key role in digestion and prevention of infection . Unlike pathogens that invade from the outside, they are harmless and tolerated by the immune system . The way the human immune system maintains this delicate balance in the gut is still largely unknown . As we all know, Type A immunoglobulin, or IgA antibody for short, plays an important role . These natural defense substances are part of the immune system and can identify foreign pathogens very specifically according to the principle of lock and key . A team of researchers led by Dr. Tim Rollenske and Professor Andrew Macpherson of the Department of Biomedical Research (DBMR) of the University of Berne was recently able to prove in a mouse model that IgA antibodies can specifically limit benignity at the Hospital of Internal Surgery and Medicine of the University of Bern. Adaptability of bacteria . This allows the immune system to fine-tune the balance of microorganisms in the gut . "We successfully demonstrated that the immune system recognizes and restricts these bacteria very specifically, " explained Dr. Tim Rollenske, the lead author of the study . Relevant results have been published in "Nature" magazine, entitled "Parallelism of intestinal secretory IgA shapes functional microbial fitness" . Created a natural IgA antibody for the first time IgA antibody is the most common antibody in the human immune system. It is secreted by specialized cells in the mucosa and accounts for two-thirds of human immunoglobulins . Surprisingly, most of the IgA antibodies produced by the body are directed against benign bacteria in the intestinal flora . Without this immune protection, these microorganisms may also have an adverse effect on health and cause intestinal diseases . However, the mystery of how IgA antibodies regulate coexistence in the intestine remains unsolved . The reason is that until now, it has not been possible to study the natural form of IgA antibodies in animal models . However, in their experiments, researchers led by Tim Rollenske and Andrew Macpholog were able to overcome this obstacle . They successfully produced a sufficient amount of IgA antibodies to specifically target a typical intestinal bacteria-Escherichia coli . Antibodies can recognize and bind to structural units on microbial membranes . Antibodies weaken the adaptability of bacteria. In their experiment, the researchers conducted three years of research. They successfully tracked the in vitro and in vivo effects in the intestines of sterile mice with a high degree of accuracy . It was found that the antibody affects the adaptability of bacteria in several ways . For example, the migration rate of bacteria is limited, or they hinder the uptake of sugar building blocks metabolized by bacteria . This effect depends on the surface components that are specifically recognized . Hedda Wardemann, co-author of the German Cancer Research Center, explained: "This means that the immune system can obviously affect benign intestinal bacteria in different ways at the same time . " So the researchers talked about the parallelism of IgA . The question of why the immune system can effectively destroy pathogenic invasion and balance with the benign bacteria in the intestine remains to be clarified . "However, our experiments show that IgA antibodies can fine-tune the balance between the human body and the intestinal flora. . "The co-author of the study, Andrew Macpherson of the Department of Biomedical Research of the University of Bern and the University Hospital of Bern, explained . The discovery is not only based on a basic understanding of the immune system in the intestines, but can also contribute to the development of vaccines. Tim Rollenske added. He said: "understanding exactly how the antibodies and microbes in the gut where recognition will also enable us to develop a vaccine against the pathogenic organisms in a more targeted basis" . references: https://medicalxpress. com/ news/2021-10-immune-intestinal-flora. html Note: This article aims to introduce the progress of medical research and cannot be used as a reference for treatment plans . If you need health guidance, please go to a regular hospital . Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics. com . The originality and the text and content stated in the article have not been verified by this site. This site does not make any guarantee or commitment to the authenticity, completeness, and timeliness of this article, all or part of the content, and the text. Please readers for reference only, and please Verify the relevant content yourself . Copyright Notice 1. Some of the reprinted articles on this site are not original, and the copyright and liability belong to the original author . 2. All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and clearly indicate the source and author. Media or individuals who do not want to be reprinted can contact us for infringement information that can provide sufficient evidence , Bio149 will be deleted within 12 hours after confirmation . 3. Users are welcome to post original articles to 86371366@qq. com, and publish them to the homepage after review. The copyright and liability belong to the sender . |
This article is original by Translational Medicine.
Please indicate the source for reprinting.
Author: Ashley
Guide: Intestinal flora plays a key role in digestion and prevention of infection
.
Recent studies have proved that type A immunoglobulin, or IgA antibody for short, also plays an important role in fine-tuning the balance between the human body and the intestinal flora in the human immune system
.
This research not only establishes a basic understanding of the immune system in the intestine, but can also contribute to the development of vaccines
.
Bacteria living in the intestine are composed of approximately 500-1000 different species
.
They constitute the intestinal flora and play a key role in digestion and prevention of infection
.
Unlike pathogens that invade from the outside, they are harmless and tolerated by the immune system
.
The way the human immune system maintains this delicate balance in the gut is still largely unknown
.
As we all know, Type A immunoglobulin, or IgA antibody for short, plays an important role
.
These natural defense substances are part of the immune system and can identify foreign pathogens very specifically according to the principle of lock and key
.
A team of researchers led by Dr.
Tim Rollenske and Professor Andrew Macpherson of the Department of Biomedical Research (DBMR) of the University of Berne was recently able to prove in a mouse model that IgA antibodies can specifically limit benignity at the Hospital of Internal Surgery and Medicine of the University of Bern.
Adaptability of bacteria
.
This allows the immune system to fine-tune the balance of microorganisms in the gut
.
"We successfully demonstrated that the immune system recognizes and restricts these bacteria very specifically,
" explained Dr.
Tim Rollenske, the lead author of the study
.
Relevant results have been published in "Nature" magazine, entitled "Parallelism of intestinal secretory IgA shapes functional microbial fitness"
.
Created a natural IgA antibody for the first time
IgA antibody is the most common antibody in the human immune system.
It is secreted by specialized cells in the mucosa and accounts for two-thirds of human immunoglobulins
.
Surprisingly, most of the IgA antibodies produced by the body are directed against benign bacteria in the intestinal flora
.
Without this immune protection, these microorganisms may also have an adverse effect on health and cause intestinal diseases
.
However, the mystery of how IgA antibodies regulate coexistence in the intestine remains unsolved
.
The reason is that until now, it has not been possible to study the natural form of IgA antibodies in animal models
.
However, in their experiments, researchers led by Tim Rollenske and Andrew Macpholog were able to overcome this obstacle
.
They successfully produced a sufficient amount of IgA antibodies to specifically target a typical intestinal bacteria-Escherichia coli
.
Antibodies can recognize and bind to structural units on microbial membranes
.
Antibodies weaken the adaptability of bacteria.
In their experiment, the researchers conducted three years of research.
They successfully tracked the in vitro and in vivo effects in the intestines of sterile mice with a high degree of accuracy
.
It was found that the antibody affects the adaptability of bacteria in several ways
.
For example, the migration rate of bacteria is limited, or they hinder the uptake of sugar building blocks metabolized by bacteria
.
This effect depends on the surface components that are specifically recognized
.
Hedda Wardemann, co-author of the German Cancer Research Center, explained: "This means that the immune system can obviously affect benign intestinal bacteria in different ways at the same time
.
" So the researchers talked about the parallelism of IgA
.
The question of why the immune system can effectively destroy pathogenic invasion and balance with the benign bacteria in the intestine remains to be clarified
.
"However, our experiments show that IgA antibodies can fine-tune the balance between the human body and the intestinal flora.
.
"The co-author of the study, Andrew Macpherson of the Department of Biomedical Research of the University of Bern and the University Hospital of Bern, explained
.
The discovery is not only based on a basic understanding of the immune system in the intestines, but can also contribute to the development of vaccines.
Tim Rollenske added.
He said: "understanding exactly how the antibodies and microbes in the gut where recognition will also enable us to develop a vaccine against the pathogenic organisms in a more targeted basis"
.
references:
https://medicalxpress.
com/ news/2021-10-immune-intestinal-flora.
html
Note: This article aims to introduce the progress of medical research and cannot be used as a reference for treatment plans
.
If you need health guidance, please go to a regular hospital
.
Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics.
com
.
The originality and the text and content stated in the article have not been verified by this site.
This site does not make any guarantee or commitment to the authenticity, completeness, and timeliness of this article, all or part of the content, and the text.
Please readers for reference only, and please Verify the relevant content yourself
.
Copyright Notice
1.
Some of the reprinted articles on this site are not original, and the copyright and liability belong to the original author
.
2.
All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and clearly indicate the source and author.
Media or individuals who do not want to be reprinted can contact us for infringement information that can provide sufficient evidence , Bio149 will be deleted within 12 hours after confirmation
.
3.
Users are welcome to post original articles to 86371366@qq.
com, and publish them to the homepage after review.
The copyright and liability belong to the sender
.
This article is original by Translational Medicine.
Please indicate the source for reprinting.
Author: Ashley
Guide: Intestinal flora plays a key role in digestion and prevention of infection
.
Recent studies have proved that type A immunoglobulin, or IgA antibody for short, also plays an important role in fine-tuning the balance between the human body and the intestinal flora in the human immune system
.
This research not only establishes a basic understanding of the immune system in the intestine, but can also contribute to the development of vaccines
.
Bacteria living in the intestine are composed of approximately 500-1000 different species
.
They constitute the intestinal flora and play a key role in digestion and prevention of infection
.
Unlike pathogens that invade from the outside, they are harmless and tolerated by the immune system
.
The way the human immune system maintains this delicate balance in the gut is still largely unknown
.
As we all know, Type A immunoglobulin, or IgA antibody for short, plays an important role
.
These natural defense substances are part of the immune system and can identify foreign pathogens very specifically according to the principle of lock and key
.
A team of researchers led by Dr.
Tim Rollenske and Professor Andrew Macpherson of the Department of Biomedical Research (DBMR) of the University of Berne was recently able to prove in a mouse model that IgA antibodies can specifically limit benignity at the Hospital of Internal Surgery and Medicine of the University of Bern.
Adaptability of bacteria
.
This allows the immune system to fine-tune the balance of microorganisms in the gut
.
"We successfully demonstrated that the immune system recognizes and restricts these bacteria very specifically,
" explained Dr.
Tim Rollenske, the lead author of the study
.
Relevant results have been published in "Nature" magazine, entitled "Parallelism of intestinal secretory IgA shapes functional microbial fitness"
.
Created a natural IgA antibody for the first time
IgA antibody is the most common antibody in the human immune system.
It is secreted by specialized cells in the mucosa and accounts for two-thirds of human immunoglobulins
.
Surprisingly, most of the IgA antibodies produced by the body are directed against benign bacteria in the intestinal flora
.
Without this immune protection, these microorganisms may also have an adverse effect on health and cause intestinal diseases
.
However, the mystery of how IgA antibodies regulate coexistence in the intestine remains unsolved
.
The reason is that until now, it has not been possible to study the natural form of IgA antibodies in animal models
.
However, in their experiments, researchers led by Tim Rollenske and Andrew Macpholog were able to overcome this obstacle
.
They successfully produced a sufficient amount of IgA antibodies to specifically target a typical intestinal bacteria-Escherichia coli
.
Antibodies can recognize and bind to structural units on microbial membranes
.
Antibodies weaken the adaptability of bacteria.
In their experiment, the researchers conducted three years of research.
They successfully tracked the in vitro and in vivo effects in the intestines of sterile mice with a high degree of accuracy
.
It was found that the antibody affects the adaptability of bacteria in several ways
.
For example, the migration rate of bacteria is limited, or they hinder the uptake of sugar building blocks metabolized by bacteria
.
This effect depends on the surface components that are specifically recognized
.
Hedda Wardemann, co-author of the German Cancer Research Center, explained: "This means that the immune system can obviously affect benign intestinal bacteria in different ways at the same time
.
" So the researchers talked about the parallelism of IgA
.
The question of why the immune system can effectively destroy pathogenic invasion and balance with the benign bacteria in the intestine remains to be clarified
.
"However, our experiments show that IgA antibodies can fine-tune the balance between the human body and the intestinal flora.
.
"The co-author of the study, Andrew Macpherson of the Department of Biomedical Research of the University of Bern and the University Hospital of Bern, explained
.
The discovery is not only based on a basic understanding of the immune system in the intestines, but can also contribute to the development of vaccines.
Tim Rollenske added.
He said: "understanding exactly how the antibodies and microbes in the gut where recognition will also enable us to develop a vaccine against the pathogenic organisms in a more targeted basis"
.
references:
https://medicalxpress.
com/ news/2021-10-immune-intestinal-flora.
html
Note: This article aims to introduce the progress of medical research and cannot be used as a reference for treatment plans
.
If you need health guidance, please go to a regular hospital
.
Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics.
com
.
The originality and the text and content stated in the article have not been verified by this site.
This site does not make any guarantee or commitment to the authenticity, completeness, and timeliness of this article, all or part of the content, and the text.
Please readers for reference only, and please Verify the relevant content yourself
.
Copyright Notice
1.
Some of the reprinted articles on this site are not original, and the copyright and liability belong to the original author
.
2.
All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and clearly indicate the source and author.
Media or individuals who do not want to be reprinted can contact us for infringement information that can provide sufficient evidence , Bio149 will be deleted within 12 hours after confirmation
.
3.
Users are welcome to post original articles to 86371366@qq.
com, and publish them to the homepage after review.
The copyright and liability belong to the sender
.
This article is original by Translational Medicine.
Please indicate the source for reprinting.
Author: Ashley
Guide: Intestinal flora plays a key role in digestion and prevention of infection
.
Recent studies have proved that type A immunoglobulin, or IgA antibody for short, also plays an important role in fine-tuning the balance between the human body and the intestinal flora in the human immune system
.
This research not only establishes a basic understanding of the immune system in the intestine, but can also contribute to the development of vaccines
.
Bacteria living in the intestine are composed of approximately 500-1000 different species
.
They constitute the intestinal flora and play a key role in digestion and prevention of infection
.
Unlike pathogens that invade from the outside, they are harmless and tolerated by the immune system
.
The way the human immune system maintains this delicate balance in the gut is still largely unknown
.
As we all know, Type A immunoglobulin, or IgA antibody for short, plays an important role
.
These natural defense substances are part of the immune system and can identify foreign pathogens very specifically according to the principle of lock and key
.
A team of researchers led by Dr.
Tim Rollenske and Professor Andrew Macpherson of the Department of Biomedical Research (DBMR) of the University of Berne was recently able to prove in a mouse model that IgA antibodies can specifically limit benignity at the Hospital of Internal Surgery and Medicine of the University of Bern.
Adaptability of bacteria
.
This allows the immune system to fine-tune the balance of microorganisms in the gut
.
"We successfully demonstrated that the immune system recognizes and restricts these bacteria very specifically,
" explained Dr.
Tim Rollenske, the lead author of the study
.
Relevant results have been published in "Nature" magazine, entitled "Parallelism of intestinal secretory IgA shapes functional microbial fitness"
.
Created a natural IgA antibody for the first time
The first natural IgA antibody was created. IgA antibody is the most common antibody in the human immune system.
It is secreted by specialized cells in the mucosa and accounts for two-thirds of human immunoglobulins
.
Surprisingly, most of the IgA antibodies produced by the body are directed against benign bacteria in the intestinal flora
.
Without this immune protection, these microorganisms may also have an adverse effect on health and cause intestinal diseases
.
However, the mystery of how IgA antibodies regulate coexistence in the intestine remains unsolved
.
The reason is that until now, it has not been possible to study the natural form of IgA antibodies in animal models
.
However, in their experiments, researchers led by Tim Rollenske and Andrew Macpholog were able to overcome this obstacle
.
They successfully produced a sufficient amount of IgA antibodies to specifically target a typical intestinal bacteria-Escherichia coli
.
Antibodies can recognize and bind to structural units on microbial membranes
.
Antibodies weaken the adaptability of bacteria.
In their experiment, the researchers conducted three years of research.
They successfully tracked the in vitro and in vivo effects in the intestines of sterile mice with a high degree of accuracy
.
It was found that the antibody affects the adaptability of bacteria in several ways
.
For example, the migration rate of bacteria is limited, or they hinder the uptake of sugar building blocks metabolized by bacteria
.
This effect depends on the surface components that are specifically recognized
.
Hedda Wardemann, co-author of the German Cancer Research Center, explained: "This means that the immune system can obviously affect benign intestinal bacteria in different ways at the same time
.
" So the researchers talked about the parallelism of IgA
.
The question of why the immune system effectively destroys the invasion of pathogens and balances with the benign bacteria in the intestine remains to be clarified.
.
"However, our experiments show that IgA antibodies can fine-tune the balance between the human body and the intestinal flora
.
" The co-author of the study, Andrew Macpherson of the University of Berne and University Hospital of Berne, explained
.
The discovery is not only based on the basic understanding of the immune system in the intestine, but also can help the development of vaccines
.
Tim Rollenske added: "Understanding exactly how and antibody identification of microorganisms in the gut where will also enable us to develop a vaccine against the pathogenic organisms in a more targeted basis"
.
Reference materials:
https://medicalxpress.
com/news/2021-10-immune-intestinal-flora.
html
Note: This article aims to introduce the progress of medical research and cannot be used as a reference for treatment options
.
If you need health guidance, please go to a regular hospital
.
https://medicalxpress.
com/news/2021-10-immune-intestinal-flora.
html
