Mark Ng Tang Fui scite author profile

Congenital polycythemias have diverse etiologies, including mutations in the hypoxia sensing pathway. These include HIF2A at exon 12, VHL gene (Chuvash polycythemia), and PHD2 mutations, which in one family was also associated with recurrent pheochromocytoma/paraganglioma (PHEO/PGL). Over the past two decades, we have studied seven unrelated patients with sporadic congenital polycythemia who subsequently developed PHEO/PGL with, until now, no discernible molecular basis. We now report a polycythemic patient with a novel germline HIF2AF374Y (exon 9) mutation, inherited from his mother, who developed PHEO/PGL. We show that this is a gain-of-function mutation and demonstrate no loss-of-heterozygosity or additional somatic mutation of HIF2A in the tumor, indicating HIF2AF374Y may be predisposing rather than causative of PHEO/PGL. This report, in view of 2 other concomitantly reported PHEO/PGL patients with somatic mutations of HIF2A and polycythemia, underscores the PHEO/PGL promoting potential of mutations of HIF2A that alone are not sufficient for PHEO/PGL development.

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Effects of testosterone treatment on body fat and lean mass in obese men on a hypocaloric diet: a randomised controlled trial

Fui

Prendergast

Dupuis

et al. 2016

BMC Med

108

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BackgroundWhether testosterone treatment has benefits on body composition over and above caloric restriction in men is unknown. We hypothesised that testosterone treatment augments diet-induced loss of fat mass and prevents loss of muscle mass.MethodsWe conducted a randomised double-blind, parallel, placebo controlled trial at a tertiary referral centre. A total of 100 obese men (body mass index ≥ 30 kg/m2) with a total testosterone level of or below 12 nmol/L and a median age of 53 years (interquartile range 47–60) receiving 10 weeks of a very low energy diet (VLED) followed by 46 weeks of weight maintenance were randomly assigned at baseline to 56 weeks of 10-weekly intramuscular testosterone undecanoate (n = 49, cases) or matching placebo (n = 51, controls). The main outcome measures were the between-group difference in fat and lean mass by dual-energy X-ray absorptiometry, and visceral fat area (computed tomography).ResultsA total of 82 men completed the study. At study end, compared to controls, cases had greater reductions in fat mass, with a mean adjusted between-group difference (MAD) of –2.9 kg (–5.7 to –0.2; P = 0.04), and in visceral fat (MAD –2678 mm2; –5180 to –176; P = 0.04). Although both groups lost the same lean mass following VLED (cases –3.9 kg (–5.3 to –2.6); controls –4.8 kg (–6.2 to –3.5), P = 0.36), cases regained lean mass (3.3 kg (1.9 to 4.7), P < 0.001) during weight maintenance, in contrast to controls (0.8 kg (–0.7 to 2.3), P = 0.29) so that, at study end, cases had an attenuated reduction in lean mass compared to controls (MAD 3.4 kg (1.3 to 5.5), P = 0.002).ConclusionsWhile dieting men receiving placebo lost both fat and lean mass, the weight loss with testosterone treatment was almost exclusively due to loss of body fat.Trial registrationclinicaltrials.gov, identifier NCT01616732, registration date: June 8, 2012Electronic supplementary materialThe online version of this article (doi:10.1186/s12916-016-0700-9) contains supplementary material, which is available to authorized users.

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Lowered testosterone in male obesity: Mechanisms, morbidity and management

2014

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With increasing modernization and urbanization of Asia, much of the future focus of the obesity epidemic will be in the Asian region. Low testosterone levels are frequently encountered in obese men who do not otherwise have a recognizable hypothalamic-pituitary-testicular (HPT) axis pathology. Moderate obesity predominantly decreases total testosterone due to insulin resistance-associated reductions in sex hormone binding globulin. More severe obesity is additionally associated with reductions in free testosterone levels due to suppression of the HPT axis. Low testosterone by itself leads to increasing adiposity, creating a self-perpetuating cycle of metabolic complications. Obesity-associated hypotestosteronemia is a functional, non-permanent state, which can be reversible, but this requires substantial weight loss. While testosterone treatment can lead to moderate reductions in fat mass, obesity by itself, in the absence of symptomatic androgen deficiency, is not an established indication for testosterone therapy. Testosterone therapy may lead to a worsening of untreated sleep apnea and compromise fertility. Whether testosterone therapy augments diet- and exercise-induced weight loss requires evaluation in adequately designed randomized controlled clinical trials.

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Late‐onset hypogonadism: metabolic impact

2019

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Background Obesity and dysglycemia (comprising insulin resistance, the metabolic syndrome and type 2 diabetes), that is diabesity, are associated with reduced circulating testosterone and, in some men, clinical features consistent with androgen deficiency. Objective To review the metabolic impact of late‐onset hypogonadism. Methods Comprehensive literature search with emphasis on recent publications. Results Obesity is one of the strongest modifiable risk factors for late‐onset hypogonadism, and coexisting diabetes leads to further hypothalamic‐pituitary‐testicular axis suppression. The hypothalamic‐pituitary‐testicular axis suppression is functional and hence potentially reversible, and occurs predominantly at the level of the hypothalamus. While definitive mechanistic data are lacking, the evidence suggests that hypothalamic‐pituitary‐testicular axis suppression is mediated by dysregulation of pro‐inflammatory cytokines leading to hypothalamic inflammation. Dysregulation of central leptin and insulin signaling may also contribute. In contrast, recent data challenge the paradigm that estradiol excess is a major contributor to hypothalamic‐pituitary‐testicular axis suppression. Instead, relative estradiol signaling deficiency may contribute to metabolic dysregulation in men with diabesity. While weight loss and optimization of comorbidities can reverse functional hypothalamic‐pituitary‐testicular axis suppression, testosterone treatment leads to metabolically favorable changes in body composition and to improvements in insulin resistance. Discussion The relationship between diabesity and late‐onset hypogonadism is bidirectional. Preliminary evidence suggests that, in carefully selected men, lifestyle measures and testosterone treatment may have additive effects. Conclusions While recent research has provided new insights into mechanistic and clinical aspects of diabesity‐associated late‐onset hypogonadism, more evidence from well‐designed large trials is needed to guide the optimal clinical approach to such men.

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The effects of testosterone on body composition in obese men are not sustained after cessation of testosterone treatment

Fui

Hoermann

Zajac

et al. 2017

Clinical Endocrinology

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Obesity and age as dominant correlates of low testosterone in men irrespective of diabetes status

et al. 2013

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SUMMARYAlthough men with type 2 diabetes (T2D) frequently have lowered testosterone levels, it is not well established whether this is ascribable to the diabetic state per se, or because of other factors, such as obesity. Our objective was to determine the prevalence and correlates of low testosterone in middle-aged men with diabetes. We conducted a cross-sectional study in 240 men including 80 men with type 1 diabetes (T1D), 80 men with T2D and 80 men without diabetes. Prevalence of a total testosterone ≤8 nmol/L was low, occurring in none of the men with T1D, 6.2% of men with T2D and 2.5% of men without diabetes. Men with T1D had higher testosterone levels compared with men without diabetes (p < 0.001), even after adjustment for body mass index (BMI) and age (p < 0.02). While men with T2D had lower testosterone compared with controls (p = 0.03), this was no longer significant when BMI and age were taken into account (p = 0.16). In the entire cohort, TT remained inversely associated with BMI independent of age, sex hormone-binding globulin and diabetic status (p = 0.01), whereas calculated free testosterone (cFT) was independently and inversely associated with age (p < 0.001), but not with BMI (p = 0.47). These results suggest that marked reductions in circulating testosterone are uncommon in middle-aged men with diabetes. Increasing BMI and age are dominant drivers of lowered total and cFT, respectively, independent of the presence or absence of diabetes.

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Mark Ng Tang Fui

The contribution of Nox4 to NADPH oxidase activity in mouse vascular smooth muscle

Testosterone treatment to prevent or revert type 2 diabetes in men enrolled in a lifestyle programme (T4DM): a randomised, double-blind, placebo-controlled, 2-year, phase 3b trial

A novel EPAS1/HIF2A germline mutation in a congenital polycythemia with paraganglioma

Effects of testosterone treatment on body fat and lean mass in obese men on a hypocaloric diet: a randomised controlled trial

Lowered testosterone in male obesity: Mechanisms, morbidity and management

Late‐onset hypogonadism: metabolic impact

The effects of testosterone on body composition in obese men are not sustained after cessation of testosterone treatment

Obesity and age as dominant correlates of low testosterone in men irrespective of diabetes status

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