You are here: Home » News-ANI » Entertainment
Business Standard

Obesity in mothers could lead to high blood pressure risk in offsprings

ANI  |  Washington D.C. [India] 

Exposure of babies to high levels of the satiety hormone, Leptin, in the womb irreversibly activates receptors in the brain that regulate blood pressure and this activation may lead to a lifelong increased risk of high blood pressure and kidney disease, according to a new study by researchers from London.

Previously, observations in humans have shown a link between obesity in pregnant mothers and high blood pressure and chronic kidney disease in their children, leading to a greater risk of cardiovascular disease, such as heart attacks, later in life.

However, when observing families, it is difficult to exclude the effect of other factors such as poor household diet.

The new research used a mouse model to investigate the role of the hormone Leptin, as children of obese mothers are exposed to high levels of Leptin during development in the womb.

Leptin is a signal produced by cells in the body, especially fat cells, after eating to indicate satiety fullness and is important in suppressing appetite but it is also thought to play an important role in the control of blood pressure.

Exposure of newborn immature mice to high levels of Leptin activated neurons with a melanocortin-4 receptor (Mc4r) in the brains of infant mice.

The Mc4r is found on neurons in a region of the hypothalamus in the brain, which controls hunger and blood pressure.

Mice that experienced activation of Mc4r neurons by elevated leptin had high blood pressure and kidney damage later in life.

The exposure to Leptin reset the brain's response to Leptin, so that in adulthood their brains produced a bigger increase in blood pressure in response to Leptin.

Professor Lucilla Poston, senior author on the paper, said: "We are increasingly aware of the important role played by maternal metabolic and nutritional status in the risk of adulthood disease in the offspring. Maternal obesity has been linked to later obesity, diabetes and hypertension in the child, but the mechanisms have proved elusive."

Adding, "This study identifies an exquisite vulnerability of certain cells in the developing brain to metabolic disturbance associated with maternal obesity, and shows how this may contribute to development of

high blood pressure in later life."

Lead author Anne-Maj Samuelsson, said: "Several recent mother-child

cohorts demonstrate higher blood pressure in children born to obese

mothers. High blood pressure in children is an important risk factor

for cardiovascular disorders in adulthood. This study identified a

mechanistic link between maternal obesity and childhood hypertension.

The absence of one specific gene, called Mc4r, in the brain, protected

the offspring of obese mice from hypertension. By adding the Mc4r back

to the mouse brain, we were able to reinstate the hypertension in

offspring born to obese mice. Our findings need to be verified in

human studies to determine if Mc4r is a therapeutic target for

hypertension."

The study was published in the Proceedings of the National Academy of

Sciences journal.

(This story has not been edited by Business Standard staff and is auto-generated from a syndicated feed.)

RECOMMENDED FOR YOU

Obesity in mothers could lead to high blood pressure risk in offsprings

Exposure of babies to high levels of the satiety hormone, Leptin, in the womb irreversibly activates receptors in the brain that regulate blood pressure and this activation may lead to a lifelong increased risk of high blood pressure and kidney disease, according to a new study by researchers from King's College London.Previously, observations in humans have shown a link between obesity in pregnant mothers and high blood pressure and chronic kidney disease in their children, leading to a greater risk of cardiovascular disease, such as heart attacks, later in life.However, when observing families, it is difficult to exclude the effect of other factors such as poor household diet.The new research used a mouse model to investigate the role of the hormone Leptin, as children of obese mothers are exposed to high levels of Leptin during development in the womb.Leptin is a signal produced by cells in the body, especially fat cells, after eating to indicate satiety fullness and is important ...

Exposure of babies to high levels of the satiety hormone, Leptin, in the womb irreversibly activates receptors in the brain that regulate blood pressure and this activation may lead to a lifelong increased risk of high blood pressure and kidney disease, according to a new study by researchers from London.

Previously, observations in humans have shown a link between obesity in pregnant mothers and high blood pressure and chronic kidney disease in their children, leading to a greater risk of cardiovascular disease, such as heart attacks, later in life.

However, when observing families, it is difficult to exclude the effect of other factors such as poor household diet.

The new research used a mouse model to investigate the role of the hormone Leptin, as children of obese mothers are exposed to high levels of Leptin during development in the womb.

Leptin is a signal produced by cells in the body, especially fat cells, after eating to indicate satiety fullness and is important in suppressing appetite but it is also thought to play an important role in the control of blood pressure.

Exposure of newborn immature mice to high levels of Leptin activated neurons with a melanocortin-4 receptor (Mc4r) in the brains of infant mice.

The Mc4r is found on neurons in a region of the hypothalamus in the brain, which controls hunger and blood pressure.

Mice that experienced activation of Mc4r neurons by elevated leptin had high blood pressure and kidney damage later in life.

The exposure to Leptin reset the brain's response to Leptin, so that in adulthood their brains produced a bigger increase in blood pressure in response to Leptin.

Professor Lucilla Poston, senior author on the paper, said: "We are increasingly aware of the important role played by maternal metabolic and nutritional status in the risk of adulthood disease in the offspring. Maternal obesity has been linked to later obesity, diabetes and hypertension in the child, but the mechanisms have proved elusive."

Adding, "This study identifies an exquisite vulnerability of certain cells in the developing brain to metabolic disturbance associated with maternal obesity, and shows how this may contribute to development of

high blood pressure in later life."

Lead author Anne-Maj Samuelsson, said: "Several recent mother-child

cohorts demonstrate higher blood pressure in children born to obese

mothers. High blood pressure in children is an important risk factor

for cardiovascular disorders in adulthood. This study identified a

mechanistic link between maternal obesity and childhood hypertension.

The absence of one specific gene, called Mc4r, in the brain, protected

the offspring of obese mice from hypertension. By adding the Mc4r back

to the mouse brain, we were able to reinstate the hypertension in

offspring born to obese mice. Our findings need to be verified in

human studies to determine if Mc4r is a therapeutic target for

hypertension."

The study was published in the Proceedings of the National Academy of

Sciences journal.

(This story has not been edited by Business Standard staff and is auto-generated from a syndicated feed.)

image
Business Standard
177 22

Obesity in mothers could lead to high blood pressure risk in offsprings

Exposure of babies to high levels of the satiety hormone, Leptin, in the womb irreversibly activates receptors in the brain that regulate blood pressure and this activation may lead to a lifelong increased risk of high blood pressure and kidney disease, according to a new study by researchers from London.

Previously, observations in humans have shown a link between obesity in pregnant mothers and high blood pressure and chronic kidney disease in their children, leading to a greater risk of cardiovascular disease, such as heart attacks, later in life.

However, when observing families, it is difficult to exclude the effect of other factors such as poor household diet.

The new research used a mouse model to investigate the role of the hormone Leptin, as children of obese mothers are exposed to high levels of Leptin during development in the womb.

Leptin is a signal produced by cells in the body, especially fat cells, after eating to indicate satiety fullness and is important in suppressing appetite but it is also thought to play an important role in the control of blood pressure.

Exposure of newborn immature mice to high levels of Leptin activated neurons with a melanocortin-4 receptor (Mc4r) in the brains of infant mice.

The Mc4r is found on neurons in a region of the hypothalamus in the brain, which controls hunger and blood pressure.

Mice that experienced activation of Mc4r neurons by elevated leptin had high blood pressure and kidney damage later in life.

The exposure to Leptin reset the brain's response to Leptin, so that in adulthood their brains produced a bigger increase in blood pressure in response to Leptin.

Professor Lucilla Poston, senior author on the paper, said: "We are increasingly aware of the important role played by maternal metabolic and nutritional status in the risk of adulthood disease in the offspring. Maternal obesity has been linked to later obesity, diabetes and hypertension in the child, but the mechanisms have proved elusive."

Adding, "This study identifies an exquisite vulnerability of certain cells in the developing brain to metabolic disturbance associated with maternal obesity, and shows how this may contribute to development of

high blood pressure in later life."

Lead author Anne-Maj Samuelsson, said: "Several recent mother-child

cohorts demonstrate higher blood pressure in children born to obese

mothers. High blood pressure in children is an important risk factor

for cardiovascular disorders in adulthood. This study identified a

mechanistic link between maternal obesity and childhood hypertension.

The absence of one specific gene, called Mc4r, in the brain, protected

the offspring of obese mice from hypertension. By adding the Mc4r back

to the mouse brain, we were able to reinstate the hypertension in

offspring born to obese mice. Our findings need to be verified in

human studies to determine if Mc4r is a therapeutic target for

hypertension."

The study was published in the Proceedings of the National Academy of

Sciences journal.

(This story has not been edited by Business Standard staff and is auto-generated from a syndicated feed.)

image
Business Standard
177 22

Upgrade To Premium Services

Welcome User

Business Standard is happy to inform you of the launch of "Business Standard Premium Services"

As a premium subscriber you get an across device unfettered access to a range of services which include:

  • Access Exclusive content - articles, features & opinion pieces
  • Weekly Industry/Genre specific newsletters - Choose multiple industries/genres
  • Access to 17 plus years of content archives
  • Set Stock price alerts for your portfolio and watch list and get them delivered to your e-mail box
  • End of day news alerts on 5 companies (via email)
  • NEW: Get seamless access to WSJ.com at a great price. No additional sign-up required.
 

Premium Services

In Partnership with

 

Dear Guest,

 

Welcome to the premium services of Business Standard brought to you courtesy FIS.
Kindly visit the Manage my subscription page to discover the benefits of this programme.

Enjoy Reading!
Team Business Standard