Silibinin from milk thistle seeds as novel, non-invasive treatment strategy for Cushing Disease

Posted on June 4, 2015 by MaryO
Silibinin has an outstanding safety profile in humans and is currently used for the treatment of liver disease and poisoning. Scientists at the Max Planck Institute of Psychiatry in Munich discovered in collaboration with scientists from the Helmholtz Zentrum München in cell cultures, animal models and human tumor tissue that silibinin can be applied to treat Cushing Disease, a rare hormone condition caused by a tumor in the pituitary gland in the brain. The researchers have filed a patent and now plan clinical trials using silibinin as a non-invasive treatment strategy. Thus, in future, patients might not have to undergo brain surgery anymore.
Treatment with silibinin, a constituent of milk thistle seeds, alleviated symptoms of Cushing Disease in cell cultures, animal models and human tumor tissue. In future, patients might not have to undergo brain surgery anymore.

Cushing Disease, not to be confused with Cushing’s Syndrome, is caused by a tumor in the pituitary gland in the brain. The tumor secrets increased amounts of the stress hormone adrenocorticotropin (ACTH) followed by cortisol release from the adrenal glands leading to rapid weight gain, elevated blood pressure and muscular weakness. Patients are prone to osteoporosis and infections and may show cognitive dysfunction or even depression. In 80 to 85 % of the patients, the tumor can be removed by uncomfortable brain surgery. For inoperable cases, there is currently only one targeted therapy approved, which unfortunately causes intense side effects such as hyperglycemia in more than 20 % of the patients.

Scientists around Günter Stalla, endocrinologist at the Max Planck Institute of Psychiatry in Munich, have now discovered in cell cultures, animal models and human tumor tissue that a harmless plant extract can be applied to treat Cushing Disease. “Silibinin is the major active constituent of milk thistle seeds. It has an outstanding safety profile in humans and is already used for the treatment of liver disease and poisoning,” explains Marcelo Paez-Pereda, leading scientist of the current study published in the renowned scientific journal Nature Medicine. After silibinin treatment, tumor cells resumed normal ACTH production, tumor growth slowed down and symptoms of Cushing Disease disappeared in mice.

In 2013, the Max Planck scientists filed a patent on a broad family of chemical and natural compounds, including silibinin, to treat pituitary tumors. Compared to humans, where only 5.5 in 100,000 people worldwide develop Cushing Disease, this condition is very common in several pets. For example, 4 % of dogs and even 7 % of horses suffer from Cushing Disease. Thus, the researchers now plan to test special formulations with a very pure substance and slow release of the active component silibinin in clinical trials.

Silibinin: Mode of action

“We knew that Cushing Disease is caused by the release of too much ACTH. So we asked ourselves what causes this over production and how to stop it,” says Paez-Pereda. In their first experiments, the researchers found tremendously high amounts of the heat shock protein 90 (HSP90) in tumor tissue from patients with Cushing Disease. In normal amounts, HSP90 helps to correctly fold another protein, the glucocorticoid receptor, which in turn inhibits the production of ACTH. “As there are too many HSP90 molecules in the tumor tissue, they stick to the glucocorticoid receptor,” explains Paez-Pereda. “We found that silibinin binds to HSP90 thus allowing glucocorticoid receptor molecules to dissolve from HSP90. With silibinin, we might have discovered a non-invasive treatment strategy not only for the rare Cushing Disease but also for other conditions with the involvement of glucocorticoid receptors, such as lung tumors, acute lymphoblastic leukemia or multiple myeloma,” concludes Paez-Pereda.

From http://www.psych.mpg.de/2034377/PM1507

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Cushing’s Syndrome

Posted on May 22, 2015 by MaryO
Prof André Lacroix, MDcorrespondence,  Richard A Feelders, MD, Constantine A Stratakis, MD, Lynnette K Nieman, MD
Published Online: 21 May 2015
DOI: http://dx.doi.org/10.1016/S0140-6736(14)61375-1

Summary

Chronic exposure to excess glucorticoids results in diverse manifestations of Cushing’s syndrome, including debilitating morbidities and increased mortality.

Genetic and molecular mechanisms responsible for excess cortisol secretion by primary adrenal lesions and adrenocorticotropic hormone (ACTH) secretion from corticotroph or ectopic tumours have been identified. New biochemical and imaging diagnostic approaches and progress in surgical and radiotherapy techniques have improved the management of patients.

The therapeutic goal is to normalise tissue exposure to cortisol to reverse increased morbidity and mortality. Optimum treatment consisting of selective and complete resection of the causative tumour is necessay to allow eventual normalisation of the hypothalamic-pituitary-adrenal axis, maintenance of pituitary function, and avoidance of tumour recurrence. The development of new drugs offers clinicians several choices to treat patients with residual cortisol excess.

However, for patients affected by this challenging syndrome, the long-term effects and comorbidities associated with hypercortisolism need ongoing care.

Read the entire article (there is a fee of $31.50US) here.

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Enzyme that triggers muscle wasting could be key to REVERSING signs of ageing | Daily Mail Online

Posted on May 21, 2015 by MaryO

Drawing on expertise from both the University of Birmingham and Queen Elizabeth Hospitals Birmingham, they applied their knowledge of Cushing’s syndrome to the new problem (sarcopenia).

Cushing’s is hormonal disorder caused by high levels of cortisol. Patients suffer from the syndrome see marked changes in their body composition.

The effects can be devastating for patients who can develop features such as muscle wasting and weakness, weight gain, thinning of the bones, diabetes, high blood pressure and heart disease.

Dr Hassan-Smith said: ‘Looking at this particular enzyme seemed like an intriguing way forward.

‘We knew how it works in relation to Cushing’s Syndrome, which is characterised by similar symptoms, and thought it would be worthwhile applying what we knew to the ageing population.’

Currently there are no treatments for sarcopenia, the team explained.

But pharmaceutical companies are developing and testing ways to block or switch off the enzyme, with a focus on treatments for conditions including diabetes.

The team is excited about taking the results of their study forward into future research, with one eye on adapting the inhibitors already in development to combat muscle ageing.

Dr Hassan Smith added: ‘The next stage is a “proof of concept” study to look at the effects of these inhibitive pharmaceuticals on muscle function, before opening it up into a clinical trial.

‘It’s an as yet unexplored area that could yield beneficial results for a problem that is becoming more prevalent as our lifespans increase.’

The study was published in the journal of Clinical Endocrinology and Metabolism.

 

via Enzyme that triggers muscle wasting could be key to REVERSING signs of ageing | Daily Mail Online.

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Macroadenoma biochemical behavior in pediatric patients with Cushing’s disease differs from adult cases

Posted on May 15, 2015 by MaryO

Cushing’s disease in children is associated with similar biochemical measures whether the disease is due to macroadenomas or microadenomas, according to a presentation at the AACE 24th Annual Scientific & Clinical Congress.

This contrasts with the disease behavior in adults, in whom macrodenomas demonstrate less glucocorticoid suppression and adrenocorticotropic hormone (ACTH) response to laboratory tests than do microadenomas, according to researchers.

“Children with pituitary macroadenomas are more likely to have the classical response to Cushing’s disease functional testing as microadenomas,”Ricardo Correa, MD, a clinical and research endocrinology fellow at National Institutes of Health, told Endocrine Today.

Correa and colleagues conducted a retrospective review of patients with Cushing’s disease who were younger than 18 years when they were admitted to the NIH between 1997 and 2014. All Cushing’s diagnoses were confirmed by pathology.

Pituitary macroadenoma was identified in 13 patients (69% female) and microadenoma in 74 (58% female). The groups had similar mean age (14 years) and BMI (31.8 kg/m2 and 30.2 kg/m2 for macroadenoma and microadenoma, respectively). The macroadenoma group had a median (25% to 75%) 24-hour urine free cortisol of  263.60 mcg/24 hr (range 170.7-528) compared with 371.6 mcg/ 24 hr (range 244.2-625.3) in the microadenoma group (P = 0.47). Median 24-hr urinary 17-hydroxysteroid excretion in the macroadenoma group was 12.6 mg/24 hr (range 8.9-42.5) and 31.6 mg/24 hr (range 4.3-39.9) in the microadenoma group.

Mean morning serum cortisol was 38.9 ± 40.4 mcg/dL compared with  20.2 ± 15.8 mcg/dL in the macroademona and microadenoma groups, respectively (P = 0.16). Mean morning basal plasma ACTH was 106.3 ± 112.3 pg/mL compared with 49.9±44.3 pg/mL for the macroadenoma and microadenoma groups, respectively (P = 0.11), while ACTH responses to the ovine corticotropin-releasing hormone test revealed no statistically significant differences. Using the high dose dexamethasone suppression test, 58% (7/12) suppressed more than 69% in the macroadenoma group compared to 69% (44/64) in the microadenoma group (P = .51).

“Studies in adult patients have demonstrated that macroadenomas have less glucocorticoid suppressibility after the high-dose dexamethasone suppression test and attenuated ACTH response to CRH compared to pituitary microadenomas,” according to Correa. “However, the present study shows that this is not true in children; although patients with macroadenomas had a tendency for higher baseline serum ACTH and cortisol levels, their responses to dynamic testing were similar to those with microadenomas.”

Reference:

Correa R, et al. Abstract #803. Presented at: AACE 24th Annual Scientific & Clinical Congress; May 13-17, 2015; Nashville, Tenn.

Disclosure: The researchers report no relevant financial disclosures.

From http://www.healio.com/endocrinology/adrenal/news/online/%7Bb4fbf36f-ac88-4eff-9278-90f0a8d1aec2%7D/macroadenoma-biochemical-behavior-in-pediatric-patients-with-cushings-disease-differs-from-adult-cases?sc_trk=internalsearch

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Cushing’s Syndrome | Seeking Alpha

Posted on May 14, 2015 by MaryO

Looking at the dizzying volatility in the government bond space and in continuation of our recent theme dealing with “alkaloids,” we remembered Cushing’s syndrome when choosing our title analogy, also known as “hypercortisolism” which is a collection of signs and symptoms due to prolonged exposure to cortisol (or QEs). Cushing’s syndrome is generally associated with rapid weight gain (bond prices), moodiness, irritability or depression to name a few.

The most common cause of Cushing’s syndrome is “exogenous” administration of glucortocoides prescribed by a health practitioner to treat other diseases such as asthma and rheumatoid arthritis. In our “market case,” one could argue that the most common cause of the sudden rise in government bond yields could be linked to the exogenous administration of “QEs” prescribed by central bankers in order to treat weak aggregate demand (AD). Strictly, Cushing’s syndrome refers to excess cortisol of any etiology (as syndrome means a group of symptoms).

 

Government bonds and Cushing’s Syndrome analogy from Cushing’s Syndrome | Seeking Alpha.

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