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This article is original by Translational Medicine Network.
Please indicate the source for reprinting.
Author: Tiffany Guide: Blood cancer is a common malignant disease in life
.
The incidence of this disease is very small, and the incidence is more in children and young people, so it is a very serious disease
.
According to the current technology, there is no way for the patient to recover completely.
Only continuous chemotherapy diagnosis can alleviate this disease
.
Therefore, it is of far-reaching significance to continuously discover new mechanisms of blood cancer and develop new treatment methods
.
Recently, scientists from Johns Hopkins University in the United States have carried out further research on blood cancer.
What enlightenment will their new findings bring to the clinical treatment of leukemia in the future? Leukemia is one of the ten malignant diseases existing in human beings
.
This malignant tumor disease ranks eighth in the world in terms of morbidity and death among men in China, and the morbidity rate is under 35 years old; the morbidity rate among children ranks first in the world
.
The severity of it can be seen from this
.
Leukemia patients with blood cancer often have infection and fever as the main symptom.
Most patients have high white blood cells.
Although there are many white blood cells, they are all immature and naive cells, just like some "baby soldiers".
Without the ability to resist the enemy, leukemia patients are easily infected, such as the mouth, throat, ears, nose, anus, skin, etc.
, which can cause some inflammation changes.
The bacteria with strong virulence can become "septicemia" and endanger life when they enter the blood.
.
Because leukemia patients produce a large number of immature white blood cells in the bone marrow, and platelet-producing megakaryocytes are significantly reduced, leukemia patients may have skin and mucous membranes, bleeding in multiple tissues and organs, and severe intracranial hemorrhage may occur
.
Invasion of leukemia cells into other tissues can be manifested as bone pain, supraperiosteal tumors (tapechromoma), skin nodules, gingival swelling, liver and spleen lymph nodes, etc.
, and can also be manifested as meningeal leukemia, testicular leukemia, etc.
, and most patients with leukemia Accompanied by anemia, anemia is aggravated due to bleeding
.
Recently, a new study conducted by scientists at Johns Hopkins University has discovered that the genes in the "chromosome cap" can fight gene mutations through self-correcting functions, thereby helping to fight against blood cancer
.
They published the results of this research in an article titled "Somatic reversion impacts evolution of myelodysplastic syndromes and acute myeloid leukemia in the short telomere disorders" in the Journal of Clinical Investigation: Telomeres are protective caps located at the ends of chromosomes.
There are some rare diseases that can shorten telomeres.
For these patients, they have a higher risk of leukemia, myelodysplastic syndrome and other blood cancers
.
In their research and analysis, this group of scientists discovered several "self-correcting" genetic mutations in the bone marrow.
These mutations can play a very important role in helping these patients resist blood cancer
.
They found that these mutations can be used as biomarkers to help them determine whether patients with short telomere syndrome are at risk of worsening blood cancer
.
Mary Armanios, MD, director of the Telomere Center and professor of oncology at the Johns Hopkins University Sidney Cammore Comprehensive Cancer Center, said: "These are the most common cancers among our patients with short telomere syndrome.
We know that to a certain extent, the cells of patients with shortened telomeres have only two possibilities: either cancer or maintain a healthy condition
.
"Dr.
Armanios and her team are suspicious: In areas where the human cell turnover rate is high, such as the bone marrow There may be a self-correction mechanism in the area of the disease.
This self-correction mechanism will cause normal cells to become malignant cells
.
Facts have proved that the self-correction mechanism they discovered will protect cells from becoming cancerous
.
Since the bone marrow produces more than 300 billion blood cells every day, they suspect that these blood cells can find evidence of cell self-correction in this area of the body, especially inside the spongy bones, where they quickly adapt to the surrounding environment.
It plays a vital role in the production of a large number of cells
.
Researchers tested the bone marrow and blood cells of 84 patients and divided these patients into three groups: people with short telomere syndrome, myelodysplastic syndrome, or leukemia; short telomere syndrome, no myelodysplastic syndrome, or Leukemia patients; and those in the control group without short telomere syndrome or any cancer
.
Armanios and her team used ultra-deep gene sequencing (repetitive sequencing of parts of the genome to locate mutations that are difficult to find), and observed genetic mutations and self-correction of several genes related to telomeres
.
Nearly a quarter of patients with short telomere syndrome have these mutations, and some even show multiple gene mutations
.
Such a mutation in a gene called TERT produces a key part called telomerase.
This enzyme stabilizes telomeres in an intact form.
Telomeres are the ends of chromosomes that protect the DNA
.
By enhancing the production of telomerase and covering the non-working TERT gene copy, they discovered that bone marrow cells seem to be able to correct themselves to avoid cancer
.
Armanios explained: "Our findings illustrate the versatility of the bone marrow and other high-replacement areas of cells in the body
.
These favorable mutations provide the body with better opportunities to protect itself
.
These findings are useful in screening patients with shortened telomeres.
The process is very important so that we can predict who may be free from the risk of cancer
.
"Reference: https://medicalxpress.
com/news/2021-09-gene-self-correction-chromosome-caps-mutations.
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
.
Popular·Article Scientific Research [NEJM] It's time for us to change the salt! A landmark study proved that simply changing the salt can prevent millions of deaths every year.
Scientific research [Nature Sub-Journal] Unprecedented clarity and speed: For the first time, the new microscope technology recorded more than 1 million neurons in the entire mouse brain Cortical activity gene detection [Nature Sub-Journal] The 1.
5 million largest genome-wide association study has identified nearly 600 gene loci related to anti-social behavior, alcoholism, and opioid addiction.
New crown virus [NEJM New Crown] in the world The largest new coronavirus vaccine safety research results released liquid biopsy [Science Sub-Journal] Biomarkers that can be determined based on blood samples-predict patient response to immunotherapy The safest medicine for the treatment of new crown infections!" The clinical trial results are out! Organoids [Nature Sub-Journal] The use of 3D brain organoids induced by stem cells can accurately replicate human brain cancer early screening [Nature Sub-Journal] A new non-invasive early screening method for lung cancer based on blood cfDNA, with a super high detection rate! Organoids [Science Sub-Journal] Subversion! It is the first time that a complete living tumor is 3D printed, and cancer exploration has entered the "real" 3D era.
Gene editing [Nature Sub-Journal] is a heavyweight! Academician Ye Yuru’s team used genome editing technology to treat Alzheimer’s disease and achieved a major breakthrough in early cancer screening [The Lancet] Subverted traditional detection methods and achieved a new breakthrough in early prostate cancer screening.
Scientific research [Discovery] Recounted Nobel Prize winners in 1944 According to the experimental data of Vitamin C, it was found that the 2 times the recommended dose recommended by the WHO should be used.
Activities The 3rd Shanghai International Cancer Conference The 5th Modern Clinical Molecular Diagnosis Symposium
Please indicate the source for reprinting.
Author: Tiffany Guide: Blood cancer is a common malignant disease in life
.
The incidence of this disease is very small, and the incidence is more in children and young people, so it is a very serious disease
.
According to the current technology, there is no way for the patient to recover completely.
Only continuous chemotherapy diagnosis can alleviate this disease
.
Therefore, it is of far-reaching significance to continuously discover new mechanisms of blood cancer and develop new treatment methods
.
Recently, scientists from Johns Hopkins University in the United States have carried out further research on blood cancer.
What enlightenment will their new findings bring to the clinical treatment of leukemia in the future? Leukemia is one of the ten malignant diseases existing in human beings
.
This malignant tumor disease ranks eighth in the world in terms of morbidity and death among men in China, and the morbidity rate is under 35 years old; the morbidity rate among children ranks first in the world
.
The severity of it can be seen from this
.
Leukemia patients with blood cancer often have infection and fever as the main symptom.
Most patients have high white blood cells.
Although there are many white blood cells, they are all immature and naive cells, just like some "baby soldiers".
Without the ability to resist the enemy, leukemia patients are easily infected, such as the mouth, throat, ears, nose, anus, skin, etc.
, which can cause some inflammation changes.
The bacteria with strong virulence can become "septicemia" and endanger life when they enter the blood.
.
Because leukemia patients produce a large number of immature white blood cells in the bone marrow, and platelet-producing megakaryocytes are significantly reduced, leukemia patients may have skin and mucous membranes, bleeding in multiple tissues and organs, and severe intracranial hemorrhage may occur
.
Invasion of leukemia cells into other tissues can be manifested as bone pain, supraperiosteal tumors (tapechromoma), skin nodules, gingival swelling, liver and spleen lymph nodes, etc.
, and can also be manifested as meningeal leukemia, testicular leukemia, etc.
, and most patients with leukemia Accompanied by anemia, anemia is aggravated due to bleeding
.
Recently, a new study conducted by scientists at Johns Hopkins University has discovered that the genes in the "chromosome cap" can fight gene mutations through self-correcting functions, thereby helping to fight against blood cancer
.
They published the results of this research in an article titled "Somatic reversion impacts evolution of myelodysplastic syndromes and acute myeloid leukemia in the short telomere disorders" in the Journal of Clinical Investigation: Telomeres are protective caps located at the ends of chromosomes.
There are some rare diseases that can shorten telomeres.
For these patients, they have a higher risk of leukemia, myelodysplastic syndrome and other blood cancers
.
In their research and analysis, this group of scientists discovered several "self-correcting" genetic mutations in the bone marrow.
These mutations can play a very important role in helping these patients resist blood cancer
.
They found that these mutations can be used as biomarkers to help them determine whether patients with short telomere syndrome are at risk of worsening blood cancer
.
Mary Armanios, MD, director of the Telomere Center and professor of oncology at the Johns Hopkins University Sidney Cammore Comprehensive Cancer Center, said: "These are the most common cancers among our patients with short telomere syndrome.
We know that to a certain extent, the cells of patients with shortened telomeres have only two possibilities: either cancer or maintain a healthy condition
.
"Dr.
Armanios and her team are suspicious: In areas where the human cell turnover rate is high, such as the bone marrow There may be a self-correction mechanism in the area of the disease.
This self-correction mechanism will cause normal cells to become malignant cells
.
Facts have proved that the self-correction mechanism they discovered will protect cells from becoming cancerous
.
Since the bone marrow produces more than 300 billion blood cells every day, they suspect that these blood cells can find evidence of cell self-correction in this area of the body, especially inside the spongy bones, where they quickly adapt to the surrounding environment.
It plays a vital role in the production of a large number of cells
.
Researchers tested the bone marrow and blood cells of 84 patients and divided these patients into three groups: people with short telomere syndrome, myelodysplastic syndrome, or leukemia; short telomere syndrome, no myelodysplastic syndrome, or Leukemia patients; and those in the control group without short telomere syndrome or any cancer
.
Armanios and her team used ultra-deep gene sequencing (repetitive sequencing of parts of the genome to locate mutations that are difficult to find), and observed genetic mutations and self-correction of several genes related to telomeres
.
Nearly a quarter of patients with short telomere syndrome have these mutations, and some even show multiple gene mutations
.
Such a mutation in a gene called TERT produces a key part called telomerase.
This enzyme stabilizes telomeres in an intact form.
Telomeres are the ends of chromosomes that protect the DNA
.
By enhancing the production of telomerase and covering the non-working TERT gene copy, they discovered that bone marrow cells seem to be able to correct themselves to avoid cancer
.
Armanios explained: "Our findings illustrate the versatility of the bone marrow and other high-replacement areas of cells in the body
.
These favorable mutations provide the body with better opportunities to protect itself
.
These findings are useful in screening patients with shortened telomeres.
The process is very important so that we can predict who may be free from the risk of cancer
.
"Reference: https://medicalxpress.
com/news/2021-09-gene-self-correction-chromosome-caps-mutations.
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
.
Popular·Article Scientific Research [NEJM] It's time for us to change the salt! A landmark study proved that simply changing the salt can prevent millions of deaths every year.
Scientific research [Nature Sub-Journal] Unprecedented clarity and speed: For the first time, the new microscope technology recorded more than 1 million neurons in the entire mouse brain Cortical activity gene detection [Nature Sub-Journal] The 1.
5 million largest genome-wide association study has identified nearly 600 gene loci related to anti-social behavior, alcoholism, and opioid addiction.
New crown virus [NEJM New Crown] in the world The largest new coronavirus vaccine safety research results released liquid biopsy [Science Sub-Journal] Biomarkers that can be determined based on blood samples-predict patient response to immunotherapy The safest medicine for the treatment of new crown infections!" The clinical trial results are out! Organoids [Nature Sub-Journal] The use of 3D brain organoids induced by stem cells can accurately replicate human brain cancer early screening [Nature Sub-Journal] A new non-invasive early screening method for lung cancer based on blood cfDNA, with a super high detection rate! Organoids [Science Sub-Journal] Subversion! It is the first time that a complete living tumor is 3D printed, and cancer exploration has entered the "real" 3D era.
Gene editing [Nature Sub-Journal] is a heavyweight! Academician Ye Yuru’s team used genome editing technology to treat Alzheimer’s disease and achieved a major breakthrough in early cancer screening [The Lancet] Subverted traditional detection methods and achieved a new breakthrough in early prostate cancer screening.
Scientific research [Discovery] Recounted Nobel Prize winners in 1944 According to the experimental data of Vitamin C, it was found that the 2 times the recommended dose recommended by the WHO should be used.
Activities The 3rd Shanghai International Cancer Conference The 5th Modern Clinical Molecular Diagnosis Symposium
