Increased Population Risk of AIP-Related Acromegaly and Gigantism in Ireland.

The aryl hydrocarbon receptor interacting protein (AIP) founder mutation R304* (or p.R304* ; NM_003977.3:c.910C>T, p.Arg304Ter) identified in Northern Ireland (NI) predisposes to acromegaly/gigantism; its population health impact remains unexplored. We measured R304* carrier frequency in 936 Mid Ulster, 1,000 Greater Belfast (both in NI) and 2,094 Republic of Ireland (ROI) volunteers and in 116 NI or ROI acromegaly/gigantism patients. Carrier frequencies were 0.0064 in Mid Ulster (95%CI = 0.0027-0.013; P = 0.0005 vs. ROI), 0.001 in Greater Belfast (0.00011-0.0047) and zero in ROI (0-0.0014). R304* prevalence was elevated in acromegaly/gigantism patients in NI (11/87, 12.6%, P < 0.05), but not in ROI (2/29, 6.8%) versus non-Irish patients (0-2.41%). Haploblock conservation supported a common ancestor for all the 18 identified Irish pedigrees (81 carriers, 30 affected). Time to most recent common ancestor (tMRCA) was 2550 (1,275-5,000) years. tMRCA-based simulations predicted 432 (90-5,175) current carriers, including 86 affected (18-1,035) for 20% penetrance. In conclusion, R304* is frequent in Mid Ulster, resulting in numerous acromegaly/gigantism cases. tMRCA is consistent with historical/folklore accounts of Irish giants. Forward simulations predict many undetected carriers; geographically targeted population screening improves asymptomatic carrier identification, complementing clinical testing of patients/relatives. We generated disease awareness locally, necessary for early diagnosis and improved outcomes of AIP-related disease.

Metformin--mode of action and clinical implications for diabetes and cancer.

Metformin has been the mainstay of therapy for diabetes mellitus for many years; however, the mechanistic aspects of metformin action remained ill-defined. Recent advances revealed that this drug, in addition to its glucose-lowering action, might be promising for specifically targeting metabolic differences between normal and abnormal metabolic signalling. The knowledge gained from dissecting the principal mechanisms by which metformin works can help us to develop novel treatments. The centre of metformin's mechanism of action is the alteration of the energy metabolism of the cell. Metformin exerts its prevailing, glucose-lowering effect by inhibiting hepatic gluconeogenesis and opposing the action of glucagon. The inhibition of mitochondrial complex I results in defective cAMP and protein kinase A signalling in response to glucagon. Stimulation of 5'-AMP-activated protein kinase, although dispensable for the glucose-lowering effect of metformin, confers insulin sensitivity, mainly by modulating lipid metabolism. Metformin might influence tumourigenesis, both indirectly, through the systemic reduction of insulin levels, and directly, via the induction of energetic stress; however, these effects require further investigation. Here, we discuss the updated understanding of the antigluconeogenic action of metformin in the liver and the implications of the discoveries of metformin targets for the treatment of diabetes mellitus and cancer.

Sympathetic activation and vasoregulation in response to carbohydrate ingestion in patients with congestive heart failure.

BACKGROUND: In normal individuals, carbohydrate ingestion increases sympathetic vasoconstrictor activity but causes net vasodilatation in the same vascular bed. This study quantified the effects of carbohydrate ingestion on muscle sympathetic nerve activity (MSNA) and vasoregulation in patients with congestive heart failure (CHF). We hypothesized that high resting levels of MSNA in patients with CHF would blunt further increases in MSNA following carbohydrate ingestion and that their sympathetic activation would restrain vasodilatation. METHODS: Eleven patients with treated severe CHF and 11 age- and body mass index-matched normal controls (NCs) were studied for 2 hours after a high-carbohydrate meal. MSNA was measured by peroneal microneurography and calf blood flow by venous occlusion plethysmography. RESULTS: Patients with CHF had higher (P < 0.03) baseline MSNA (67 ± 4.0 bursts/100 beats) than NCs (51 ± 5.8 bursts/100 beats) and lower (P < 0.001) baroreflex sensitivity (2.1 ± 0.58 ms/mm Hg) than NCs (7.4 ± 1.2 ms/mm Hg). Carbohydrate ingestion was associated with a significant increase in MSNA (P < 0.05) and calf blood flow (P < 0.01) with unchanged blood pressure in CHF patients. The magnitude of responses in CHF patients was not significantly different from that in NCs, but vasodilatation was delayed significantly (by 30 minutes). CONCLUSIONS: Despite considerable resting sympathoexcitation and reduced baroreflex sensitivity, patients with CHF exhibited further increases in MSNA after carbohydrate ingestion, achieving levels similar to those after myocardial infarction. They also had temporally delayed vasodilatation, which could contribute to cachexia and muscle weakness in CHF patients. These observations suggest that high-carbohydrate meals may adversely affect CHF patients via altered autonomic tone and blood-flow patterns.