👤 Reiner Siebert

Melanocortin 4 receptor (MC4R) deficiency is the most common monogenic cause of obesity, yet remains underdiagnosed. Patients with monogenic obesity often undergo a frustrating diagnostic and therapeutic odyssey of years of ineffective lifestyle interventions before a causal diagnosis is made. We report a four-generation family where genetic testing in a child identified a likely pathogenic MC4R variant also carried by three ancestors. The studied family included a 7-year-old index patient, her mother, grandmother, and great-grandmother with a history of early-onset obesity. Panel sequencing of monogenic obesity genes was performed in the index patient whereas in the relatives targeted analysis of the familial MC4R variant was performed by Sanger sequencing. The index patient developed severe obesity by age 2 years, with hyperphagia, tall stature, and dyslipidemia. Despite lifestyle interventions, her body mass index (BMI) continued to increase. At the age of 7 years, genetic panel testing identified a rare monoallelic variant in the MC4R gene c.913C > T; p.Arg305Trp, previously shown to impair receptor function. Treatment with liraglutide (3.0 mg/day) was initiated at age 8 years, resulting in marked reduction in BMI during the first year of treatment. Subsequent genetic testing of family members identified the same variant in her mother, grandmother, and great-grandmother, all of whom had a history of early-onset obesity and related comorbidities, consistent with segregation of the variant within the family. This case underscores the importance of early genetic testing in severe childhood obesity to avoid ineffective treatments and enable targeted therapies (e.g., GLP-1 analogues). Diagnosing (likely) pathogenic MC4R variants can also identify at-risk relatives, providing psychological and clinical benefits across generations. Show less

Monogenic defects in the leptin-melanocortin pathway are associated with hyperphagia and severe, early-onset obesity. Early childhood growth patterns in height, weight, and BMI, might serve as phenotypic markers for specific genetic disorders; however, reliable data are scarce. This study aimed to evaluate the natural history of height, weight, and BMI in early childhood in a large European group of individuals with monogenic obesity. This multicentre observational study analysed height, weight, and BMI from birth to age 5 years in individuals diagnosed with biallelic (likely) pathogenic LEP, LEPR, POMC, PCSK1, or MC4R variants or monoallelic (likely) pathogenic MC4R variants from six European centres (Berlin and Ulm, Germany; Cambridge, UK; Madrid, Spain; Paris, France; Rotterdam, Netherlands). All patient data up to May 31, 2022 were included in this analysis. All individuals had at least two height or weight measurements between birth and age 5 years. Early childhood growth trajectories were compared with those of control children with obesity without a known genetic cause, following a negative next-generation sequencing panel. Diagnostic performance of BMI as a predictor test for monogenic obesity was also evaluated. We included 147 individuals with monogenic obesity. From the age of 6 months onwards, children with biallelic variants (n=88, 55% female vs 45% male) had substantially higher BMIs than those with monoallelic MC4R variants (n=59, 53% female vs 47% male) and control children (n=113, 59% female vs 41% male). Children with biallelic LEP, LEPR, and MC4R variants showed a steep BMI increase during the first year of life, followed by a plateau until age 5 years, whereas those with biallelic POMC variants did not plateau. Accelerated linear growth was only observed in children with biallelic MC4R variants starting from age 1 year. The optimal BMI cut-off for distinguishing individuals with biallelic variants from control individuals was identified at age 2 years, with a test positivity cutoff of 24·0 kg/m This study identified characteristic early childhood BMI trajectories for different forms of monogenic obesity. From age 6 months onwards, individuals with biallelic variants can be distinguished from those with monoallelic variants and common obesity. A BMI ≥24 kg/m Federal Ministry of Education and Research as part of the German Center for Child and Adolescent Health, German Research Foundation, Spanish Ministry of Health, The Wellcome Trust, Botnar Fondation, Leducq Foundation, National Institute for Health Research (NIHR) Cambridge Biomedical Research Centre, and NIHR Senior Investigator Award. Show less

Amyloidosis is a disease group caused by pathological aggregation and deposition of peptides in diverse tissue sites. Apart from the fibril protein, amyloid deposits frequently enclose non-fibrillar constituents. In this study, carpal tunnel tissue sections with ATTR amyloid were analysed by quantitative mass spectrometry-based proteomics. Following manual dissection, tissue samples of equal size and with heterogeneous amyloid load were dissected and forwarded to bottom-up proteome analysis and label-free protein profiling. The amyloid-associated proteins showed significant correlations of label-free intensity profiles. A comprehensive list of 83 proteins specifically enriched in amyloid deposits was discovered. In addition to well-known signature proteins (e.g. apolipoprotein E, apolipoprotein A-IV, and vitronectin), 22 members of the complement system, including all seven components of the membrane attack complex could be associated to the disease. These data lend support to the hypothesis that the complement system is activated in ATTR amyloidosis. Show less

Diabetic nephropathy is the leading cause of end-stage renal disease and the largest contributor to the total cost of diabetes care. Rodent models are excellent tools to gain more insight into the pathogenesis of diabetic nephropathy. In the present study, we characterize the age-related sequence of diabetes-associated kidney lesions in GIPR(dn) transgenic mice, a novel mouse model of early-onset diabetes mellitus. Clinical-chemical analyses as well as qualitative and quantitative morphological analyses of the kidneys of GIPR(dn) transgenic animals and nontransgenic littermate controls were performed at 3, 8, 20, and 28 wk of age. Early renal changes of transgenic mice consisted of podocyte hypertrophy, reduced numerical volume density of podocytes in glomeruli, and homogenous thickening of the glomerular basement membrane, followed by renal and glomerular hypertrophy as well as mesangial expansion and matrix accumulation. At 28 wk of age, glomerular damage was most prominent, including advanced glomerulosclerosis, tubulointerstitial lesions, and proteinuria. Real-time PCR demonstrated increased glomerular expression of Col4a1, Fn1, and Tgfb1. Immunohistochemistry revealed increased mesangial deposition of collagen type IV, fibronectin, and laminin. The present study shows that GIPR(dn) transgenic mice exhibit renal changes that closely resemble diabetes-associated kidney alterations in humans. Data particularly from male transgenic mice indicate that podocyte hypertrophy is directly linked to hyperglycemia, without the influence of mechanical stress. GIPR(dn) transgenic mice are considered an excellent new tool to study the mechanisms involved in onset and progression of diabetic nephropathy. Show less