Cushing’s Awareness Patient Day

Posted on December 31, 2013 by MaryO

Saturday, February 1st, 2014

San Francisco, California

Hosted by Kate Tully, R.N. and Katherine Waidner, R.N.

Cushing’s Patient Advocates – Corcept Therapeutics

Agenda and details to follow

The day will focus on endogenous Cushing’s, a condition caused by high cortisol in your body.

The day will not cover exogenous Cushing’s caused by steroids taken for various health conditions including asthma, arthritis or lupus.

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ARMC5 Mutations in Macronodular Adrenal Hyperplasia with Cushing’s Syndrome

Posted on November 30, 2013 by MaryO

adrenal-hyperplasia

 

Guillaume Assié, M.D., Ph.D., Rossella Libé, M.D., Stéphanie Espiard, M.D., Marthe Rizk-Rabin, Ph.D., Anne Guimier, M.D., Windy Luscap, M.Sc., Olivia Barreau, M.D., Lucile Lefèvre, M.Sc., Mathilde Sibony, M.D., Laurence Guignat, M.D., Stéphanie Rodriguez, M.Sc., Karine Perlemoine, B.S., Fernande René-Corail, B.S., Franck Letourneur, Ph.D., Bilal Trabulsi, M.D., Alix Poussier, M.D., Nathalie Chabbert-Buffet, M.D., Ph.D., Françoise Borson-Chazot, M.D., Ph.D., Lionel Groussin, M.D., Ph.D., Xavier Bertagna, M.D., Constantine A. Stratakis, M.D., Ph.D., Bruno Ragazzon, Ph.D., and Jérôme Bertherat, M.D., Ph.D.

N Engl J Med 2013; 369:2105-2114 November 28, 2013 DOI: 10.1056/NEJMoa1304603

BACKGROUND

Corticotropin-independent macronodular adrenal hyperplasia may be an incidental finding or it may be identified during evaluation for Cushing’s syndrome. Reports of familial cases and the involvement of both adrenal glands suggest a genetic origin of this condition.

METHODS

We genotyped blood and tumor DNA obtained from 33 patients with corticotropin-independent macronodular adrenal hyperplasia (12 men and 21 women who were 30 to 73 years of age), using single-nucleotide polymorphism arrays, microsatellite markers, and whole-genome and Sanger sequencing. The effects of armadillo repeat containing 5 (ARMC5) inactivation and overexpression were tested in cell-culture models.

RESULTS

The most frequent somatic chromosome alteration was loss of heterozygosity at 16p (in 8 of 33 patients for whom data were available [24%]). The most frequent mutation identified by means of whole-genome sequencing was in ARMC5, located at 16p11.2. ARMC5 mutations were detected in tumors obtained from 18 of 33 patients (55%). In all cases, both alleles of ARMC5 carried mutations: one germline and the other somatic. In 4 patients with a germline ARMC5 mutation, different nodules from the affected adrenals harbored different secondary ARMC5 alterations. Transcriptome-based classification of corticotropin-independent macronodular adrenal hyperplasia indicated that ARMC5 mutations influenced gene expression, since all cases with mutations clustered together. ARMC5 inactivation decreased steroidogenesis in vitro, and its overexpression altered cell survival.

CONCLUSIONS

Some cases of corticotropin-independent macronodular adrenal hyperplasia appear to be genetic, most often with inactivating mutations of ARMC5, a putative tumor-suppressor gene. Genetic testing for this condition, which often has a long and insidious prediagnostic course, might result in earlier identification and better management. (Funded by Agence Nationale de la Recherche and others.)

Supported in part by grants from Agence Nationale de la Recherche (ANR-10-Blan-1136), Corticomedullosurrénale Tumeur Endocrine Network (Programme Hospitalier de Recherche Clinique grant AOM95201), Assistance Publique–Hôpitaux de Paris (Clinical Research Center Grant Genhyper P061006), Institut National du Cancer (Recherche Translationelle 2009-RT-02), the Seventh Framework Program of the European Commission (F2-2010-259735), INSERM (Contrat d’Interface, to Dr. Assié), the Conny-Maeva Charitable Foundation, and the intramural program of the Eunice Kennedy Shriver National Institute of Child Health and Human Development.

Disclosure forms provided by the authors are available with the full text of this article at NEJM.org.

Drs. Assié, Libé, Espiard, Rizk-Rabin, Ragazzon, and Bertherat contributed equally to this article.

We thank Drs. J. Chelly and M. Delpech of the cell bank of Cochin Hospital and Dr. B. Terris of the tumor bank of Cochin Hospital for their help in sample collection; Dr. E. Clauser of the oncogenetic unit of Cochin Hospital for help in microsatellite analysis; Drs. J. Guibourdenche and E. Clauser of the hormone biology unit of Cochin Hospital for cortisol assays; Drs. F. Tissier and Pierre Colin for pathological analysis; Anne Audebourg for technical assistance; J. Metral and A. de Reynies of the Cartes d’Identité des Tumeurs program of Ligue Nationale contre le Cancer for help in genomics studies and fruitful discussions; Dr. P. Nietschke of the bioinformatics platforms of Paris Descartes University for helpful discussions; all the members of the Genomics and Signaling of Endocrine Tumors team and of the genomic platform of Cochin Institute for their help in these studies; and the patients and their families, as well as the physicians and staff involved in patient care, for their active participation.

SOURCE INFORMATION

From INSERM Unité 1016, Centre National de la Recherche Scientifique Unité Mixte de Recherche 8104, Institut Cochin (G.A., R.L., S.E., M.R.-R., A.G., W.L., O.B., L.L., S.R., K.P., F.R.-C., F.L., L. Groussin, X.B., B.R., J.B.), Faculté de Médecine Paris Descartes, Université Paris Descartes, Sorbonne Paris Cité (G.A., S.E., A.G., O.B., L.L., M.S., K.P., F.R.-C., L. Groussin, X.B., J.B.), Department of Endocrinology, Referral Center for Rare Adrenal Diseases (G.A., R.L., O.B., L. Guignat, L. Groussin, X.B., J.B.), and Department of Pathology (M.S.), Assistance Publique–Hôpitaux de Paris, Hôpital Cochin, and Unit of Endocrinology, Department of Obstetrics and Gynecology, Hôpital Tenon (N.C.-B.) — all in Paris; Unit of Endocrinology, Centre Hospitalier du Centre Bretagne, Site de Kério, Noyal-Pontivy (B.T.), Unit of Endocrinology, Hôtel Dieu du Creusot, Le Creusot (A.P.), and Department of Endocrinology Lyon-Est, Groupement Hospitalier Est, Bron (F.B.-C.) — all in France; and the Section on Endocrinology and Genetics, Program on Developmental Endocrinology and Genetics and the Pediatric Endocrinology Inter-Institute Training Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD (C.A.S.).

Address reprint requests to Dr. Bertherat at Service des Maladies Endocriniennes et Métaboliques, Centre de Référence des Maladies Rares de la Surrénale, Hôpital Cochin, 27 rue du Faubourg St. Jacques, 75014 Paris, France, or at jerome.bertherat@cch.aphp.fr.

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Pituitary ACTH Hypersecretion (Cushing’s Disease) – Pipeline Review, H2 2013

Posted on November 6, 2013 by MaryO

DUBLIN — Research and Markets  (http://www.researchandmarkets.com/research/h78zrm/pituitary_acth) has announced the addition of the “Pituitary ACTH Hypersecretion (Cushing’s Disease) – Pipeline Review, H2 2013” report to their offering.

‘Pituitary ACTH Hypersecretion (Cushing’s Disease) – Pipeline Review, H2 2013’ provides an overview of the indication’s therapeutic pipeline. This report provides information on the therapeutic development for Pituitary ACTH Hypersecretion (Cushing’s Disease), complete with latest updates, and special features on late-stage and discontinued projects. It also reviews key players involved in the therapeutic development for Pituitary ACTH Hypersecretion (Cushing’s Disease).

Scope

– A snapshot of the global therapeutic scenario for Pituitary ACTH Hypersecretion (Cushing’s Disease).

– A review of the Pituitary ACTH Hypersecretion (Cushing’s Disease) products under development by companies and universities/research institutes based on information derived from company and industry-specific sources.

– Coverage of products based on various stages of development ranging from discovery till registration stages.

– A feature on pipeline projects on the basis of monotherapy and combined therapeutics.

– Coverage of the Pituitary ACTH Hypersecretion (Cushing’s Disease) pipeline on the basis of route of administration and molecule type.

– Key discontinued pipeline projects.

– Latest news and deals relating to the products.

Reasons to buy

– Identify and understand important and diverse types of therapeutics under development for Pituitary ACTH Hypersecretion (Cushing’s Disease).

– Identify emerging players with potentially strong product portfolio and design effective counter-strategies to gain competitive advantage.

– Plan mergers and acquisitions effectively by identifying players of the most promising pipeline.

– Devise corrective measures for pipeline projects by understanding Pituitary ACTH Hypersecretion (Cushing’s Disease) pipeline depth and focus of Indication therapeutics.

– Develop and design in-licensing and out-licensing strategies by identifying prospective partners with the most attractive projects to enhance and expand business potential and scope.

– Modify the therapeutic portfolio by identifying discontinued projects and understanding the factors that drove them from pipeline.

Companies Mentioned

Isis Pharmaceuticals, Inc.

Ipsen S.A.

Novartis AG

Corcept Therapeutics Incorporated

HRA Pharma, SA

Cortendo Invest AB

Orphagen Pharmaceuticals, Inc.

For more information visit http://www.researchandmarkets.com/research/h78zrm/pituitary_acth

About Research and Markets

Research and Markets is the world’s leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends.

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Remaining calm = Reducing illness

Posted on October 9, 2013 by MaryO

Have you ever noticed that when you are “stressed” you can feel either emotionally/physically depleted or energized?  When our body is under stress the brain responds by producing epheniphrine or adrenaline, sending signals to our adrenal glands, increasing the rate at which our heart beats while releasing oxygen to our muscles.  The long term response to this process produces cortisol (aka the stress hormone) facilitating the release of energy throughout our body.  However, when our body isn’t properly balanced these hormones can wreak havoc on our wellness possibly resulting in one of three conditions:  Cushing’s syndrome, Cushing’s disease or Addison’s disease.

adrenal-glandsThe actual Adrenal glands sit physically atop both kidneys, taking on a triangular shape and a roundish rectangular type shape.  These glands are responsible for our sex hormones and cortisol, helping us respond to stress amongst other functions.  When our body is under stress, physically and/or nutritionally, it responds one of two ways:  Produces too much or too little of the cortisol hormone.  Our Adrenal glands also contribute to regulating our blood sugar, blood pressure, salt and water.

Adrenal disorders can cause our body to make too much or not enough of these hormones, bringing about adrenal gland related syndromes and disease.  Cushing’s syndrome results from our body making too much versus Addison’s disease produces too little.

Cushing’s syndrome vs. Cushing’s disease

Glucocorticoids (naturally produced in our body or received through medicine) are groups of corticosteroids (cortisol or dexamethasone) involved in metabolizing our carbohydrate and protein.  When taken synthetically (i.e. treatment of allergies, skin problems, and respiratory problems) or over-produced naturally, the side effects can result in “Cushing’s syndrome”.

Cushing’s syndrome can occur one of two ways:  Endogenous or Exogenous.  Endogenous is caused by the body (usually through tumors).  Exogenous is caused by medication.  In both cases, the body produces too much cortisol.

Symptoms: Severe fatigue/muscle weakness, high blood sugar and high blood pressure, upper body obesity, thin arms/legs, bruising easily

Treatment:  The cure and treatment for Cushing’s disease can come through medicine, surgery, or by lowering the dosage of your current synthetic hormone treatment.  Cushing’s syndrome can be cured.

Cushing’s disease is the most common form of endogenous Cushing’s syndrome and is likely treatable.  Caused by a tumor in the pituitary gland secreting too much Adrenocorticotropic hormone (ACTH), this type of tumor does not spread and can be removed through surgery.

Nutrition:  See a nutritionist or dietician for your condition.  Mostly, avoid excess sodium.  High blood sugar (hyperglycemia) and high blood pressure can easily occur with this condition.  Bone loss density is common with this condition, so be extra aware of your calcium (800 – 1200 mg per day, based upon age) and Vitamin D intake (5mcg from age 0-50, increasing up to 10 mcg 50-71, and 15 mcg after 71).  Eating healthy, balanced and whole food (versus processed) is extremely important.

(Resource:  http://www.aboutcushings.com/understanding-cushings-disease/causes-and-differences.jsp)

Addison’s disease

Opposite from Cushing’s syndrome, Addison’s disease doesn’t make “enough” of the sex hormones and cortisol.  The result of this disease causes our immune system to attack our tissue, damaging our adrenal glands.

Symptoms:  Weight loss, muscle weakness, increasingly worse fatigue, low blood pressure and patchy or dark skin.

Treatment:  If left untreated, the condition can be fatal.  Lifetime hormone treatment is usually required. Addison disease patients should always carry medical/emergency ID on them, listing their medication, dosage and disease

Lab tests can confirm that you have Addison’s disease. If you don’t treat it, it can be fatal. You will need to take hormone pills for the rest of your life. If you have Addison’s disease, you should carry an emergency ID. It should say that you have the disease, list your medicines and say how much you need in an emergency.”

(Ref: http://www.nlm.nih.gov/medlineplus/cushingssyndrome.html, NIH: National Institute of Neurological Disorders and Stroke)                                                                                                                                                                                                                                        Learning how to balance our stress-filled lives is extremely important to our overall health.  Healthy nutrition always contributes benefits to our overall wellness.  We can overwhelm our endocrine system by simply not eating nutritionally.  Understanding that “Food is a drug” is vitally important to how we help our body naturally heal itself.  The above two conditions are the result of our body not handling the stress we are putting it through, causing our body to producing too much or too little of the sex hormones and cortisol.

Unless we first address what we can do naturally through nutrition, the medicine we consume will only do so much in helping our body heal completely.  You simply cannot continue doing the same thing over and over again, expecting the medicine to do all the work.  Some diseases are brought upon us through our environment (emotionally as well as physically) as well as our diet/nutrition.  Reviewing our entire wellness is always wisdom whenever we’re diagnosed with anything.

Certainly listen to your doctor and their advice.  But also ask your doctor to refer you to a nutritionist or clinical/registered dietician for a complete evaluation that includes a review of your nutritional diet/wellness.  Too often we reach for a pill or a procedure to “fix” our health problems, ignoring what we should be doing on our own to help our body heal.  Medical intervention is the result of providing our body with what it cannot produce on its own.  Nutrition should always be the “natural” medicine we take, as well as what we might need through prescribed medication.

Adapted from (Spelling errors corrected) http://hamptonroads.com/2013/10/remaining-calm-reducing-illness

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Differences Between Cushing’s Syndrome and Cushing’s Disease

Posted on August 28, 2013 by MaryO

What’s the difference between Cushing’s Disease and Cushing’s Syndrome?

disease-syndrome

Cushing’s syndrome is a hormonal disorder

Cortisol is a normal hormone produced in the outer portion of the adrenal glands. When functioning normally, cortisol helps the body respond to stress and change. It mobilizes nutrients, modifies the body’s response to inflammation, stimulates the liver to raise blood sugar, and helps control the amount of water in the body. Cortisol production is regulated by the adrenocorticotrophic hormone (ACTH), produced in the pituitary gland. Spontaneous overproduction of cortisol in the adrenals is divided into two groups – those attributed to an excess of ACTH and those that are independent of ACTH.

Cushing’s syndrome is the term used to describe a group of symptoms that occur when a persons’ cortisol levels are too high (known as hypercortisolism) for too long. The majority of people have Cushing’s syndrome because they are regularly taking certain medicine(s) that continually add too much cortisol to the body. Doctors call this an “exogenous” (outside the body) cause of Cushing’s syndrome. Other people have Cushing’s syndrome because something is causing the adrenal gland(s) to overproduce cortisol. Doctors call this an “endogenous” (inside the body) cause of Cushing’s syndrome.

Cushings-causes.png

Cushing’s disease is a form of Cushing’s syndrome

Cushing’s disease is the most common form of endogenous Cushing’s syndrome. It is caused by a tumor in the pituitary gland that secretes excessive amounts of a hormone called Adrenocorticotropic hormone, or ACTH. Fortunately, this type of tumor is typically benign. Unlike a cancerous (malignant) tumor, a benign tumor stays in its original location and will not spread. After you are diagnosed with Cushing’s syndrome, it is important that your doctor continues the diagnostic process to determine the cause of hypercortisolism.

From the message boards It is not only a tumor that causes Cushings Disease—many of us have the rarer form of this rare disease which is Pituitary Hyperplasia. It also causes CD and may be nodular (shown on MRI s a tumor) or dispersed (meaning spread throughout the gland).

How a pituitary tumor causes Cushing’s disease

Pituitary.jpg

ACTH is a hormone produced in your pituitary gland. ACTH travels to your adrenal glands and signals them to produce cortisol.

Pituitary adenomas are benign tumors of the pituitary gland which secrete increased amounts of ACTH, causing excessive cortisol production. Most patients have a single adenoma. First described in 1912 by neurosurgeon Harvey Cushing in his book The Pituitary Body and its Disorders, Cushing’s disease is the most common cause of spontaneous Cushing’s syndrome, accounting for 60 to 70 percent of cases.

If a person has Cushing’s disease, it means that a group of abnormal cells has built up in the pituitary gland to form an ACTH-producing pituitary tumor. These abnormal cells produce ACTH, just as normal pituitary gland cells do—only far too much. The excess ACTH travels to adrenal glands. The adrenal glands are then bombarded with signals to produce more and more cortisol. As a result, the adrenal glands continuously secrete too much cortisol.

Ectopic ACTH Syndrome

Some benign or malignant (cancerous) tumors that arise outside the pituitary can produce ACTH. This condition is known as ectopic ACTH syndrome. Lung tumors cause more than 50 percent of these cases. Other less common types of tumors that can produce ACTH are thymomas, pancreatic islet cell tumors, and medullary carcinomas of the thyroid.

Adrenal Tumors

Adrenal glands.jpg

An abnormality of the adrenal glands such as an adrenal tumor may cause Cushing’s syndrome. Most of these cases involve non-cancerous tumors called adrenal adenomas, which release excess cortisol into the blood.

Adrenocortical carcinomas, or adrenal cancers, are the least common cause of Cushing’s syndrome. Cancer cells secrete excess levels of several adrenal cortical hormones, including cortisol and adrenal androgens. Adrenocortical carcinomas often cause very high hormone levels and rapid onset of symptoms.

Familial Cushing’s syndrome

Most cases of Cushing’s syndrome are not genetic. However, some individuals may develop Cushing’s syndrome due to an inherited tendency to develop tumors of one or more endocrine glands. In Primary Pigmented Micronodular Adrenal Disease, children or young adults develop small cortisol-producing tumors of the adrenal glands. In Multiple Endocrine Neoplasia Type I (MEN I), hormone secreting tumors of the parathyroid glands, pancreas and pituitary occur. Cushing’s syndrome in MEN I may be due to pituitary, ectopic or adrenal tumors.

Risk factors

Obesity, type 2 diabetes, poorly controlled blood glucose (blood sugar levels), and high blood pressure may increase the risk of developing this disorder.

Adapted from http://www.cushiewiki.com/index.php?title=Cushing%27s_Disease_or_Syndrome

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