Mutation of ARMC5 gene characterized as the cause of meningeal tumour growth

Posted on October 13, 2014 by MaryO

Scientists at the Luxembourg Centre for Systems Biomedicine (LCSB) of the University of Luxembourg have published their findings that mutations in a gene known as “ARMC5” promote the growth of benign tumours in the adrenal glands and on the meninges: ARMC5 appears to belong to the group of so-called tumour suppressor genes. It is the first time in years that scientists have characterized such a gene.

The ARMC5 gene was discovered by independent workgroups studying – so-called adrenal adenomas – in connection with Cushing’s syndrome. In this disease, the body produces too much of the . Now, for the first time, a mutation of ARMC5 has been characterized as the cause behind the growth of meningeal tumours. The results on this tumour syndrome, obtained by the group of Dr. Patrick May and PD. Dr. Jochen Schneider together with colleagues from Charité Berlin (Dr. Ulf Elbelt) and the Universities of Würzburg (Prof. Dr. Bruno Allolio) and Cologne (Dr. Michael Kloth), have been published recently in the Journal of Clinical Endocrinology Metabolism.

Cortisol is an important hormone. It influences many metabolic pathways in the body and has a suppressing effect on the immune system. Accordingly, it is commonly employed as an anti-inflammatory medication. Prolonged, elevated levels of cortisol in the body can lead to obesity, muscular dystrophy, depression and other symptoms. To maintain the correct concentration in the blood, the body has a refined regulation system: Certain areas of the brain produce the hormone corticotropin as a stimulator of cortisol release; the actual formation of cortisol takes place in the . As the concentration of cortisol in the blood rises, the brain reduces the production of corticotropin.

In search of the causes of Cushing’s syndrome, scientists recently encountered certain genetic causes of benign tumours of the adrenal cortex. Growth of these adrenal cortex adenomas is based on a combination of hereditary and spontaneous mutations: It affects people in whom one of two “alternative copies” – one of the so-called alleles – of the ARMC5 gene is mutated from birth. If the second allele of ARMC5 later also undergoes a spontaneous mutation in the adrenal cortex, then the gene no longer functions. “What is interesting is that the failure of ARMC5 has no direct influence on cortisol production. However, because the tumour cells multiply faster than other body cells, and the number of cells in the tumour increases, the blood cortisol level rises in the course of the disease”, says Dr Schneider. Then, the level in the body rises and ultimately results in the onset of Cushing’s syndrome.

When other scientific workgroups discovered that further benign tumours – in this case meningeal tumours – occur more often in ARMC5-Cushing families, the group of Patrick May and Jochen Schneider sequenced the ARMC5 gene and studied it using bioinformatic techniques. “We demonstrated for the first time, in a patient with an adrenal cortex tumour and simultaneously a meningeal tumour, that somatic, that is non-hereditary, ARMC5 mutations are present in both tumours. This observation suggests that ARMC5 is a true tumour-suppressor gene.”

It must now be explored, Schneider continues, to what extent patients with adrenal cortex tumours ought to be screened for simultaneous presence of meningioma, and in which other types of tumour ARMC5 mutations are responsible for tumour growth: “Building upon that, we can learn whether the gene and the metabolic pathways it influences offer new approaches for treating the tumour syndrome.”

Explore further: Are you carrying adrenal Cushing’s syndrome without knowing it?

More information: “Molecular and Clinical Evidence for an ARMC5 Tumor Syndrome: Concurrent Inactivating Germline and Somatic Mutations are Associated with both Primary Macronodular Adrenal Hyperplasia and Meningioma.” Journal of Clinical Endocrinology Metabolism, October 2014. DOI: 10.1210/jc.2014-2648

Journal reference: Journal of Clinical Endocrinology & Metabolism search and more info website

Provided by University of Luxembourg search and more info

From http://medicalxpress.com/news/2014-10-mutation-armc5-gene-characterized-meningeal.html

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Clinical effectiveness of metyrapone monotherapy in 195 patients with Cushing’s syndrome

Posted on June 21, 2014 by MaryO

From Day 1 of the 16th International Congress of Endocrinology and the Endocrine Society’s 96th Annual Meeting and Expo »

Chicago, IL – June 21, 2014

E Daniel, SJB Aylwin, SG Ball, K Boelaert, D Cuthbertson, C Daousi, JR Davis, W Drake, AB Grossman, M Gurnell, N Karavitaki, T Kearney, K Meeran, A Rees, PJ Trainer, JDC Newell-Price

Summary: Metyrapone is widely used in the UK for the control of cortisol excess in Cushing’s syndrome, but its use is not standardised. The few published reports on metyrapone use pertain to limited patient numbers. In this report, the largest report on metyrapone use, metyrapone was effective in achieving eucortisolemia in over 70% of patients without any other cortisol-lowering intervention, with a satisfactory safety profile. A variety of monitoring regimens were used, but greater standardisation of practice and more active dose titration is needed.

Methods:

  • A retrospective survey was conducted across 13 tertiary centres in England and Wales.
  • Using a standardised proforma, extensive data including monitoring and safety information were collected for patients with Cushing’s syndrome on metyrapone therapy between 1997 and 2013.
  • Eucortisolemia was defined according to the monitoring test used as a mean cortisol ‘day curve’ value ≤300 nmol/l, a urinary free cortisol bellow the upper limit of normal (ULN) or a 9am serum cortisol

Results:

  • A total of 195 patients received metyrapone (160 as monotherapy). Average age was 49.6 +/-15.7 years: 87.2% had metyrapone in conjunction with other interventions (surgery, radiotherapy or chemotherapy) while 12.8% had cortisol-lowering treatment alone.
  • Dose-titration was used in 81% of patients, whereas 19% had a block-and-replace regimen.
  • A total of 138 patients received metyrapone monotherapy for a mean duration of 162 days before any other intervention took place.
  • The etiology of Cushing’s syndrome in this subgroup was: pituitary-dependent disease [CD, 59% (macroadenoma 32% of CD)], ectopic ACTH syndrome (EAS, 17%), adrenocortical carcinoma (ACC, 4%), adrenal adenoma (AA, 17%) and other benign adrenal disease (3%).
  • Hypokalemia was actively managed with potassium levels increasing during metyrapone therapy (3.90 mmol/L vs 3.68 mmol/L, P=0.0026).
  • In this subgroup, 74% achieved eucortisolemia on varying doses: CD 1370 mg, EAS 2080 mg, AA 1170 mg, ACC 750 mg daily in divided doses.
  • The preferred monitoring method was by cortisol ‘day-curves’, followed by 9am cortisol and urinary free cortisol.
  • Overall, 25.3% of patients developed side effects, most commonly gastrointestinal upset and hypoadrenalism.
  • 88% of adverse events were managed as outpatients; 36% of patients treated for more than one month had ≤2 monitoring assessments and insufficient dose titration.

From MDLinx

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Utility of measurement of dexamethasone levels in the diagnostic testing for Cushing’s syndrome

Posted on June 21, 2014 by MaryO

From Day 1 of the 16th International Congress of Endocrinology and the Endocrine Society’s 96th Annual Meeting and Expo »

Chicago, IL – June 21, 2014

ST Sharma, JA Yanovski, SB Abraham, LK Nieman

Summary: Dexamethasone (dex) suppression tests (DST) are used for screening and differential diagnosis of Cushing’s syndrome (CS). The 1 mg overnight (LD) DST is used to diagnose CS, the dex-suppressed CRH stimulation (Dex-CRH) test to differentiate CS from pseudocushings (PCS) while the 8 mg overnight (HD) DST is used to differentiate Cushing’s disease (CD) from ectopic ACTH syndrome (EAS). Researchers assessed the utility of dex levels in improving the diagnostic accuracy of these tests and they found that low dex and high CBG levels can account for false positive (FP) DST and Dex-CRH test results. Use of a higher dex dose in pts with low dex levels can help decrease FP results.

Methods:

  • This is a retrospective study of patients (pts) with CS, PCS and normal volunteers (NV) who had a dex level measured as part of LDDST, HDDST or Dex-CRH test.
  • A post-dex cortisol (F) level ≥1.8 mcg/dl in the LDDST and a 15 min post-CRH F level ≥1.4 mcg/dl in the Dex-CRH test suggested CS.
  • A ≥69% suppression of F levels in HDDST indicated CD.
  • Dex levels

Results:

  • LDDST (n=77): Post-dex F was abnormal in 44 pts, 37 of these did not have CS on follow-up.
  • Proportion of pts with low dex levels was similar in those with incorrect or correct LDDST results (P=0.7).
  • Three of 5 pts with an abnormal result and low dex levels (44-117 ng/dl) had suppressed post-dex F levels after a 2 mg overnight DST. HDDST (N=56): Results were not consistent with the final diagnosis (CD or EAS) in 13 (23%) pts.
  • Of these, 5 had low dex levels (400-1220 ng/dl).
  • Proportion of pts with low dex levels was similar between those with correct and incorrect HDDST results (P=0.5).
  • HDDST in 1 pt with ACTH-dependent CS suggested EAS (28% suppression) with low dex level.
  • IPSS indicated CD.
  • After a doubled dex dose (16 mg), F levels suppressed by 76%, changing the HDDST result to CD.
  • Dex-CRH (n=139): Results were consistent with the final diagnosis in 133 pts (74 CS, 20 NV, 39 PCS).
  • Six pts with an abnormal result had dex levels
  • Of these, repeat testing with doubled dex dose (1 mg every 6 hours) in 2 pts led to higher dex levels (610, 757 ng/dl) and normal F level in one.
  • Two pts with abnormal result were on OCPs, 1 with a known high cortisol binding globulin (CBG) level.
  • None had CS on follow-up.
  • There was no correlation between dex and post-dex F levels in LDDST, 15 min post-CRH F levels in Dex-CRH test and % suppression of F post-dex in HDDST (P=NS).

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Diagnosing and Treating Cortisol Excess and Deficiency

Posted on June 21, 2014 by MaryO

From Day 1 of the 16th International Congress of Endocrinology and the Endocrine Society’s 96th Annual Meeting and Expo »

Chicago, IL – June 21, 2014

A phase 2 study of Chronocort®, a modified release formulation of hydrocortisone, in the treatment of adults with classic congenital adrenal hyperplasia

A Mallappa, L-A Daley, N Sinaii, C Van Ryzin, H Huatan, D Digweed, D Eckland, M Whitaker, LK Nieman, RJ Ross, DP Merke

Summary: Classic congenital adrenal hyperplasia (CAH) due to 21-hydroxylase deficiency is characterized by cortisol and aldosterone deficiency and androgen excess. Current conventional glucocorticoid therapy is suboptimal as it cannot replace the normal cortisol circadian rhythm and inadequate or inappropriate suppression of adrenal androgens are common. In the preliminary results of a phase 2 study of Chronocort®, a modified release hydrocortisone capsule formulation, researchers found that Chronocort®, a novel modified release hydrocortisone capsule formulation, approximates physiological cortisol secretion, and improves biochemical control of CAH. Further analyses are underway.

Methods:

  • The study objectives were to characterize pharmacokinetics and examine disease control following 6 months dose titration.
  • Serial profiling was obtained at baseline (conventional glucocorticoid) and every 2 months.
  • Twice-daily Chronocort® was initiated: 20 mg at 2300 h, 10 mg at 0700 h.
  • Dose titration was based on clinical status and optimal hormonal ranges (17OHP 300-1200 ng/dL, normal androstenedione (males: 40-150, females: 30-200 ng/dL), with androstenedione prioritized.
  • Chronocort® cortisol pharmacokinetic profile was the primary endpoint.
  • Secondary endpoints included biomarkers of disease control.

Results:

  • A total of 16 adults (8 females; age 29 ±13 years) with classic CAH (12 salt-wasting, 4 simple virilizing) participated.
  • Conventional therapy varied (5 dexamethasone, 7 prednisone, 4 hydrocortisone).
  • Chronocort® cortisol pharmacokinetic profile approximated physiological cortisol secretion.
  • Ten patients required Chronocort® dose adjustments (decrease in 8, increase in 2; mean hydrocortisone equivalent dose conventional vs 6 months: 16.1 ± 6.4 vs 14.7 ± 6.4 mg/m2).
  • Serial androstenedione levels were in the normal range in 8 (50%) of patients on conventional therapy compared with 12 (75%) on Chronocort® at 6 months.
  • The majority of patients on Chronocort® achieved 17O HP levels within the normal range, rather than within the mildly elevated range currently used for management.
  • At 6 months, Chronocort® resulted in lower 24-hr (P=0.02), morning (0700-1500; P=0.008), and afternoon (1500-2300; P=0.03) area-under-the-curve androstenedione compared with conventional therapy.
  • No serious adverse events occurred.
  • Common adverse events were headache, fatigue, early awakening, and anemia.
  • Three patients had unexpected carpal tunnel syndrome, which resolved with wrist splints.

From http://www.mdlinx.com/endocrinology/conference-abstract.cfm/ZZ5BA369FDE9DE4CED82CB6A7CD5BFD1BE/16521/?utm_source=confcoveragenl&utm_medium=newsletter&utm_content=abstract-list&utm_campaign=abstract-ICE/EN2014&nonus=0#

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Subclinical Cushing’s syndrome and cardiovascular disease

Posted on May 2, 2014 by MaryO
Panagiotis Anagnostis a cEmail AddressSpyridon N Karras bVasilios G Athyros cDimitri P Mikhailidis dAsterios Karagiannis c
Guido Di Dalmazi and colleagues1 reported that in patients with adrenal incidentalomas and either stable mild hypercortisolism or worsening of cortisol hypersecretion, all-cause and cardiovascular disease-specific mortality was higher compared with in those with adrenal incidentalomas that did not secrete cortisol, after a mean follow-up of 7·5 years. Moreover, cortisol concentrations measured after dexamethasone-suppression test were associated with all-cause mortality independent of the presence of traditional cardiovascular disease risk factors.
Subclinical Cushing’s syndrome is the most common hormonal abnormality in patients with adrenal incidentalomas (prevalence 1—29%).2 The proportion of adrenal incidentalomas that progress to subclinical Cushing’s syndrome is low (1·7%) and most are lesions of 3 cm or larger.2 Progression to overt Cushing’s syndrome is controversial (because both spontaneous normalisation of hypersecretion and stable disease have been reported during follow-up) and spontaneous normalisation of hypersecretion has been reported in 50% of cases.2 Results of the study by Di Dalmazi and co-workers1 are important because they show, for the first time, that patients with subclinical Cushing’s syndrome are at increased risk of cardiovascular disease and all-cause mortality (mainly attributable to cardiovascular disease). The association of cortisol with all-cause mortality might also be attributable to its potential role in the pathogenesis of metabolic syndrome.3
Findings of previous studies have shown an increased prevalence of cardiovascular disease risk factors in patients with subclinical Cushing’s syndrome, but data for optimum management are conflicting. Some criteria—such as large (>4—6 cm) adrenal incidentalomas, features suggestive of malignancy (eg, heterogeneity, irregular shape, calcification or necrosis, invasion to adjacent tissues), or potentially lethal hormonal hypersecretion (ie, pheochromocytomas)—support the need for adrenalectomy. However, universal surgical management of patients with subclinical Cushing’s syndrome has not been accepted.24 Uncertainty about the most effective management strategy for subclinical Cushing’s syndrome is attributable to the variable definitions used, and the small sample size and retrospective nature of most studies.4 Only one prospective study has been published so far showing that laparoscopic adrenalectomy is more beneficial than is conservative management for the normalisation or improvement of cardiovascular disease risk factors, such as diabetes, dyslipidaemia, hypertension, and obesity.5
Prospective studies and registries are needed to document the effect of different approaches on the incidence of cardiovascular disease events and mortality in patients with adrenal incidentalomas and subclinical Cushing’s syndrome. Until then, individualised treatment seems prudent. Surgical management of subclinical Cushing’s syndrome can be suggested in young patients (age <50 years) and in those with cardiovascular disease risk factors or bone disease associated with hypercortisolism that are of recent onset, difficult to control with drugs, or show progression over time.4
Another message from Di Dalmazi’s study1 is that hormonal deterioration might develop even after 4—5 years, which most studies reported as a reasonable and safe follow-up.2 This possibility should be kept in mind for the management of patients with adrenal incidentalomas, especially if clinical signs of Cushing’s syndrome develop or if cardiovascular disease risk factors become evident or increase in severity (ie, hormonal hypersecretion).
We declare that we have no competing interests.

References

1 Di Dalmazi GVicennati VGarelli S, et alCardiovascular events and mortality in patients with adrenal incidentalomas that are either non-secreting or associated with intermediate phenotype or subclinical Cushing’s syndrome: a 15-year retrospective studyLancet Diabetes Endocrinol 2014published online Jan 29 http://dx.doi.org/10.1016/S2213-8587(13)70211-0.
2 Anagnostis PKaragiannis ATziomalos KKakafika AIAthyros VGMikhailidis DPAdrenal incidentaloma: a diagnostic challengeHormones (Athens) 20098163-184PubMed
3 Anagnostis PAthyros VGTziomalos KKaragiannis AMikhailidis DPClinical review: The pathogenetic role of cortisol in the metabolic syndrome: a hypothesisJ Clin Endocrinol Metab 200994:2692-2701PubMed
4 Terzolo MPia AReimondo GSubclinical Cushing’s syndrome: definition and managementClin Endocrinol (Oxf) 20127612-18PubMed
5 Toniato AMerante-Boschin IOpocher GPelizzo MRSchiavi FBallotta ESurgical versus conservative management for subclinical Cushing syndrome in adrenal incidentalomas: a prospective randomized studyAnn Surg 2009249388-391PubMed
a Division of Endocrinology, Police Medical Centre, Thessaloniki, 54 640, Greece
b Department of Endocrinology and Metabolism, Agios Pavlos General Hospital, Thessaloniki, Greece
c Second Propedeutic Department of Internal Medicine, Medical School, Aristotle University of Thessaloniki, Hippokration Hospital, Thessaloniki, Greece
d Department of Clinical Biochemistry (Vascular Prevention Clinic) Royal Free Hospital Campus, University College London Medical School, University College London, London, UK

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