Mutations Drive Unrestrained Secretion

Posted on December 11, 2014 by MaryO
The USP8 mutations identified in adenomas of the pituitary gland lead to overproduction of ACTH. Panel A: ACTH-producing cells in a normal gland. The other panels show cells non-mutant (B) or mutant (C) for USP8. Credit: S. Sbiera, Universität Würzburg

The USP8 mutations identified in adenomas of the pituitary gland lead to overproduction of ACTH. Panel A: ACTH-producing cells in a normal gland. The other panels show cells non-mutant (B) or mutant (C) for USP8. Credit: S. Sbiera, Universität Würzburg

Benign tumors in the pituitary gland lead to uncontrolled secretion of the stress hormone cortisol by the cells of the adrenal cortex. An international research effort has now characterized a new mechanism that triggers the syndrome.

Many individuals who suffer from Cushing syndrome are easy to recognize: They tend to be overweight particularly around the waist, and have round faces and bull necks. In addition to these obvious features, most of them have high blood pressure, develop muscle weakness, become diabetic and are extremely susceptible to infection. Cushing syndrome can often be treated effectively by surgical intervention, but patients succumb to infections or cardiovascular disease if the condition is left untreated.

In their efforts to understand how benign tumors in the pituitary provoke the development of Cushing’s disease, researchers based in Munich, Würzburg and Tokyo led by Professor Martin Reincke (Director of LMU’s Medical Clinic IV at Munich University Medical Center) have now pinpointed a novel molecular mechanism responsible for the condition. The results of the study have just appeared in Nature Genetics.

The perils of incessant secretion

All of the symptoms that typify Cushing syndrome are attributable to the unregulated secretion of the hormone cortisol – generally referred to as cortisone. Cortisol is normally released into the bloodstream only in stress situations, and helps the organism to cope with the challenge. However, when secreted in an uncontrolled fashion, the result is physiological havoc. Cortisol is synthesized in, and secreted by specialized cells in the adrenal cortex in response to the binding of a different hormone, the adrenocorticotropic hormone (ACTH). ACTH in turn is produced in the pituitary gland. Excessive cell proliferation in the pituitary can result in the formation of benign tumors (adenomas), which may lead to overproduction of ACTH and a corresponding increase in the level of circulating cortisol. However, the connecting links between the two processes are incompletely understood.

“We have now shown that tumor cells in more than one-third of patients with Cushing’s disease carry a mutation in one specific gene, which codes for an enzyme called ubiquitin-specific protease 8,” says Martin Fassnacht (Würzburg University Hospital), one of the authors of the publication. The mutation was discovered in the course of a detailed genetic characterization of benign tumors of the pituitary gland that overproduced ACTH.

Protease defect sets off a chain reaction

Ubiquitin-specific protease 8 (USP8) is one of a family of enzymes which play a key role in the destruction of proteins that are required only transiently by cells. One such protein is the receptor for epidermal growth factor (EGF), which is degraded and disposed of only when the USP8 gene is inactive, and no USP8 protein is present. The collaboration found that the effect of the mutations identified in pituitary tumor tissues is to keep the USP8 permanently active. As a consequence, the EGF receptor escapes demolition, and is instead recycled to its site of action on the cell membrane. The upshot of this is a life-threatening chain reaction, in which unrestrained synthesis of ACTH leads to uninhibited secretion of cortisol. “The identification of mutations in USP8 is a significant finding, because it opens up entirely new diagnostic and therapeutic approaches to the management of Cushing’s disease,” Martin Reincke adds.

Long-term focus on Cushing’s disease

Indeed, this is not the first time that the collaboration between the teams in Munich and Würzburg has shed light on the pathogenesis of Cushing’s disease. The two groups have previously identified mutations in a gene that is expressed in the adrenal cortex as a frequent cause of the pathological secretion of cortisol in a different patient population. The results of that study appeared in February 2014 in the “New England Journal of Medicine“. And only last week, a paper providing a detailed characterization of the molecular effects of the latter set of mutations was published in “Nature Communications“.

Explore further: Cushing’s syndrome: A genetic basis for cortisol excess

More information: “Mutations in the deubiquitinase gene USP8 cause Cushing’s disease.” Nature Genetics (2014) DOI: 10.1038/ng.3166

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Myth: YOU are the problem and the reason for your cortisol levels…

Posted on December 8, 2014 by MaryO
Myth: YOU are the problem and the reason for your cortisol levels. Having issues with too much or too little cortisol, the stress hormone, means that YOU are stressing too much or are too anxious. “YOU could control your levels if you would JUST calm down!”
myth-busted
Fact: YOU are NOT the problem! The dysfunction in your body is the problem. It is true that cortisol is your stress hormone or fight or flight hormone. This hormone helps your body compensate for and deal with trauma or stress, both physical and emotional. So, yes, your body does have a reaction to stress.
However, for people with Cushing’s, that hormone goes haywire. Too much cortisol leads to Cushing’s symptoms and having too little cortisol leads to Adrenal Insufficiency. Normally, our bodies’ response to stress is to pump out 10X the amount of your baseline cortisol to cope. If it is not able to do this, it will go into shock and can lead to death unless the emergency protocol is followed with an emergency injection of steroid. No amount of coping skills can “control” one’s physiological response to stress.

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Cushing’s Awareness Challenge, Day 3: Symptoms

Posted on April 3, 2014 by MaryO

robin-symptoms

 

Robin has made another excellent graphic of some of the symptoms of Cushing’s.  There are far too many to be listed in any image, as shown by the list at http://www.cushings-help.com/toc.htm#symptoms

 

Just to be silly, a few years ago, I did my own version of Cushing’s symptoms:

 

The Seven Dwarves of Cushing's

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Enzyme linked to obesity

Posted on September 11, 2013 by MaryO

Researchers find that increased levels of an enzyme in fat cells lead to dangerous levels of abdominal obesity.

Previous studies have shown that the stress hormone cortisol can lead to an accumulation of fat round the abdomen. For instance, people with Cushing’s disease – where there’s excess cortisol in the blood – have too much abdominal fat. It’s bad for health to have fat in this area – it’s linked to diabetes and heart disease. That’s why it’s healthier to be a ‘pear shape’ rather than an ‘apple shape’. The distribution of fat in your body really does matter.

Researchers in Scotland and the US have now focussed upon an enzyme that produces cortisol to see what effect it has on abdominal fat. Working on mice genetically-modified to produce the enzyme – and therefore cortisol – in fat cells, they find that even a small increase in levels produces dramatic effects. The mice, compared with normal animals, gained fat in the abdominal area even on a low fat diet. They developed diabetes, high blood pressure, and also tended to eat more. It opens up the possibility of further studies on human obesity, and also perhaps could lead to therapies that block this enzyme and so reduce fat accumulation.

From http://www.tele-management.ca/2013/09/enzyme-linked-to-obesity/

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Adrenal Glands

Posted on June 23, 2013 by MaryO

adrenal-glandsAnatomy of the adrenal glands:

Adrenal glands, which are also called suprarenal glands, are small, triangular glands located on top of both kidneys. An adrenal gland is made of two parts: the outer region is called the adrenal cortex and the inner region is called the adrenal medulla.

Function of the adrenal glands:

The adrenal glands work interactively with the hypothalamus and pituitary gland in the following process:

  • the hypothalamus produces corticotropin-releasing hormones, which stimulate the pituitary gland.
  • the pituitary gland, in turn, produces corticotropin hormones, which stimulate the adrenal glands to produce corticosteroid hormones.

Both parts of the adrenal glands — the adrenal cortex and the adrenal medulla — perform very separate functions.

What is the adrenal cortex?

The adrenal cortex, the outer portion of the adrenal gland, secretes hormones that have an effect on the body’s metabolism, on chemicals in the blood, and on certain body characteristics. The adrenal cortex secretes corticosteroids and other hormones directly into the bloodstream. The hormones produced by the adrenal cortex include:

  • corticosteroid hormones
    • hydrocortisone hormone – this hormone, also known as cortisol, controls the body’s use of fats, proteins, and carbohydrates.
    • corticosterone – this hormone, together with hydrocortisone hormones, suppresses inflammatory reactions in the body and also affects the immune system.
  • aldosterone hormone – this hormone inhibits the level of sodium excreted into the urine, maintaining blood volume and blood pressure.
  • androgenic steroids (androgen hormones) – these hormones have minimal effect on the development of male characteristics.

What is the adrenal medulla?

The adrenal medulla, the inner part of the adrenal gland, is not essential to life, but helps a person in coping with physical and emotional stress. The adrenal medulla secretes the following hormones:

  • epinephrine (also called adrenaline) – this hormone increases the heart rate and force of heart contractions, facilitates blood flow to the muscles and brain, causes relaxation of smooth muscles, helps with conversion of glycogen to glucose in the liver, and other activities.
  • norepinephrine (also called noradrenaline) – this hormone has little effect on smooth muscle, metabolic processes, and cardiac output, but has strong vasoconstrictive effects, thus increasing blood pressure.

From: University of Maryland Center for Diabetes and Endocrinology

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