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Childhood acute lymphoblastic leukemia (ALL) may be preventable, according to a researcher.
Mel Greaves, PhD, of The Institute of Cancer Research in London, UK, reviewed more than 30 years of research and concluded that ALL develops in 2 steps—genetic mutation before birth and further genetic change after birth triggered by infection.
The evidence suggests that infection early in life is beneficial to prime the immune system, but later infection without earlier priming can trigger ALL.
So priming the immune system in the first year of life could potentially prevent childhood ALL, according to Dr Greaves.
He outlined this theory in Nature Reviews Cancer.
Dr Greaves compiled more than 30 years of research into genetics, cell biology, immunology, epidemiology, and animal modelling of ALL.
The evidence led him to conclude that ALL begins with a genetic mutation that occurs before birth and predisposes a child to leukemia.
The disease is triggered later, in childhood, by exposure to one or more common infections. This primarily occurs in children who experienced “clean” childhoods in their first year of life, without much interaction with other infants or older children.
Dr Greaves challenged previous reports of possible environmental causes for ALL, such as ionizing radiation, electromagnetic waves, or man-made chemicals. He argued that none of these reports are supported by robust evidence.
Instead, he believes there is strong evidence suggesting that infection later in childhood, in the absence of earlier priming, can trigger ALL.
Dr Greaves’ studies of identical twins with ALL showed that 2 mutations were required for ALL development. The first arises in one twin in the womb but produces a population of pre-malignant cells that spread to the other twin via their shared blood supply. The second mutation arises after birth and is different in the twins.
Population studies and animal experiments suggest this second genetic hit can be triggered by infection, probably by a range of common viruses and bacteria. In one unique cluster of cases investigated by Dr Greaves and his colleagues, all cases were infected with flu virus.
In other work, researchers engineered mice with an active leukemia-initiating gene. When the team moved the mice from an ultra-clean, germ-free environment to one that had common microbes, the mice developed ALL.
Population studies have indicated that early exposure to infection in infancy, such as via day care attendance and breast feeding, can protect against ALL, probably by priming the immune system. This suggests childhood ALL may be preventable.
Dr Greaves is now investigating whether earlier exposure to harmless microbes could prevent leukemia in mice.
“I have spent more than 40 years researching childhood leukemia, and, over that time, there has been huge progress in our understanding of its biology and its treatment . . . ,” Dr Greaves said. “But it has always struck me that something big was missing, a gap in our knowledge [that failed to explain] why or how otherwise healthy children develop leukemia and whether this cancer is preventable.”
“This body of research is a culmination of decades of work and at last provides a credible explanation for how the major type of childhood leukemia develops. The research strongly suggests that ALL has a clear biological cause and is triggered by a variety of infections in predisposed children whose immune systems have not been properly primed. It also busts some persistent myths about the causes of leukemia, such as the damaging but unsubstantiated claims that the disease is commonly caused by exposure to electro-magnetic waves or pollution.”
“I hope this research will have a real impact on the lives of children. The most important implication is that most cases of childhood leukemia are likely to be preventable. It might be done in the same way that is currently under consideration for autoimmune disease or allergies, perhaps with simple and safe interventions to expose infants to a variety of common and harmless ‘bugs.’”
Childhood acute lymphoblastic leukemia (ALL) may be preventable, according to a researcher.
Mel Greaves, PhD, of The Institute of Cancer Research in London, UK, reviewed more than 30 years of research and concluded that ALL develops in 2 steps—genetic mutation before birth and further genetic change after birth triggered by infection.
The evidence suggests that infection early in life is beneficial to prime the immune system, but later infection without earlier priming can trigger ALL.
So priming the immune system in the first year of life could potentially prevent childhood ALL, according to Dr Greaves.
He outlined this theory in Nature Reviews Cancer.
Dr Greaves compiled more than 30 years of research into genetics, cell biology, immunology, epidemiology, and animal modelling of ALL.
The evidence led him to conclude that ALL begins with a genetic mutation that occurs before birth and predisposes a child to leukemia.
The disease is triggered later, in childhood, by exposure to one or more common infections. This primarily occurs in children who experienced “clean” childhoods in their first year of life, without much interaction with other infants or older children.
Dr Greaves challenged previous reports of possible environmental causes for ALL, such as ionizing radiation, electromagnetic waves, or man-made chemicals. He argued that none of these reports are supported by robust evidence.
Instead, he believes there is strong evidence suggesting that infection later in childhood, in the absence of earlier priming, can trigger ALL.
Dr Greaves’ studies of identical twins with ALL showed that 2 mutations were required for ALL development. The first arises in one twin in the womb but produces a population of pre-malignant cells that spread to the other twin via their shared blood supply. The second mutation arises after birth and is different in the twins.
Population studies and animal experiments suggest this second genetic hit can be triggered by infection, probably by a range of common viruses and bacteria. In one unique cluster of cases investigated by Dr Greaves and his colleagues, all cases were infected with flu virus.
In other work, researchers engineered mice with an active leukemia-initiating gene. When the team moved the mice from an ultra-clean, germ-free environment to one that had common microbes, the mice developed ALL.
Population studies have indicated that early exposure to infection in infancy, such as via day care attendance and breast feeding, can protect against ALL, probably by priming the immune system. This suggests childhood ALL may be preventable.
Dr Greaves is now investigating whether earlier exposure to harmless microbes could prevent leukemia in mice.
“I have spent more than 40 years researching childhood leukemia, and, over that time, there has been huge progress in our understanding of its biology and its treatment . . . ,” Dr Greaves said. “But it has always struck me that something big was missing, a gap in our knowledge [that failed to explain] why or how otherwise healthy children develop leukemia and whether this cancer is preventable.”
“This body of research is a culmination of decades of work and at last provides a credible explanation for how the major type of childhood leukemia develops. The research strongly suggests that ALL has a clear biological cause and is triggered by a variety of infections in predisposed children whose immune systems have not been properly primed. It also busts some persistent myths about the causes of leukemia, such as the damaging but unsubstantiated claims that the disease is commonly caused by exposure to electro-magnetic waves or pollution.”
“I hope this research will have a real impact on the lives of children. The most important implication is that most cases of childhood leukemia are likely to be preventable. It might be done in the same way that is currently under consideration for autoimmune disease or allergies, perhaps with simple and safe interventions to expose infants to a variety of common and harmless ‘bugs.’”
Childhood acute lymphoblastic leukemia (ALL) may be preventable, according to a researcher.
Mel Greaves, PhD, of The Institute of Cancer Research in London, UK, reviewed more than 30 years of research and concluded that ALL develops in 2 steps—genetic mutation before birth and further genetic change after birth triggered by infection.
The evidence suggests that infection early in life is beneficial to prime the immune system, but later infection without earlier priming can trigger ALL.
So priming the immune system in the first year of life could potentially prevent childhood ALL, according to Dr Greaves.
He outlined this theory in Nature Reviews Cancer.
Dr Greaves compiled more than 30 years of research into genetics, cell biology, immunology, epidemiology, and animal modelling of ALL.
The evidence led him to conclude that ALL begins with a genetic mutation that occurs before birth and predisposes a child to leukemia.
The disease is triggered later, in childhood, by exposure to one or more common infections. This primarily occurs in children who experienced “clean” childhoods in their first year of life, without much interaction with other infants or older children.
Dr Greaves challenged previous reports of possible environmental causes for ALL, such as ionizing radiation, electromagnetic waves, or man-made chemicals. He argued that none of these reports are supported by robust evidence.
Instead, he believes there is strong evidence suggesting that infection later in childhood, in the absence of earlier priming, can trigger ALL.
Dr Greaves’ studies of identical twins with ALL showed that 2 mutations were required for ALL development. The first arises in one twin in the womb but produces a population of pre-malignant cells that spread to the other twin via their shared blood supply. The second mutation arises after birth and is different in the twins.
Population studies and animal experiments suggest this second genetic hit can be triggered by infection, probably by a range of common viruses and bacteria. In one unique cluster of cases investigated by Dr Greaves and his colleagues, all cases were infected with flu virus.
In other work, researchers engineered mice with an active leukemia-initiating gene. When the team moved the mice from an ultra-clean, germ-free environment to one that had common microbes, the mice developed ALL.
Population studies have indicated that early exposure to infection in infancy, such as via day care attendance and breast feeding, can protect against ALL, probably by priming the immune system. This suggests childhood ALL may be preventable.
Dr Greaves is now investigating whether earlier exposure to harmless microbes could prevent leukemia in mice.
“I have spent more than 40 years researching childhood leukemia, and, over that time, there has been huge progress in our understanding of its biology and its treatment . . . ,” Dr Greaves said. “But it has always struck me that something big was missing, a gap in our knowledge [that failed to explain] why or how otherwise healthy children develop leukemia and whether this cancer is preventable.”
“This body of research is a culmination of decades of work and at last provides a credible explanation for how the major type of childhood leukemia develops. The research strongly suggests that ALL has a clear biological cause and is triggered by a variety of infections in predisposed children whose immune systems have not been properly primed. It also busts some persistent myths about the causes of leukemia, such as the damaging but unsubstantiated claims that the disease is commonly caused by exposure to electro-magnetic waves or pollution.”
“I hope this research will have a real impact on the lives of children. The most important implication is that most cases of childhood leukemia are likely to be preventable. It might be done in the same way that is currently under consideration for autoimmune disease or allergies, perhaps with simple and safe interventions to expose infants to a variety of common and harmless ‘bugs.’”