Hepatic glycogen synthase (GYS2) deficiency: seven novel patients and seven novel variants
Glycogen storage disease type 0 (GSD 0) is an autosomal recessive disorder of glycogen metabolism caused by mutations in the GYS2 gene manifesting in infancy or early childhood and characterized by ketotic hypoglycemia after prolonged fasting, and postprandial hyperglycemia and hyperlactatemia. GSD 0 is a rare form of hepatic glycogen storage disease with less than 30 reported patients in the literature so far.
Overlapping Phenotype of Adult-Onset ALPK3-Cardiomyopathy in the Setting of Two Novel Variants
Inherited cardiomyopathies (CMPs) are fairly common causes of morbidity and mortality, particularly, in young individuals. In substantial number of cases, only morphological diagnostic criteria cannot distinguish one CMP from another because of incomplete penetrance, advanced stage of the disease, or overlapping phenotypes. Genetic testing has become a mandatory tool for definite diagnosis that is required for family screening, individual prognosis, and personalized treatment strategy in routine practice. In parallel, accumulation of genotype-phenotype correlations, especially for rare genes, promotes the deciphering of underling molecular mechanisms and the development of targeting treatment of CMPs. Here we present an adult-onset case comprised morphological features of several CMPs: asymmetric left ventricle (LV) hypertrophy, severe systolic dysfunction, LV hypertrabeculation and restrictive physiology. Using next-generation sequencing, two novel variants (NM_020778.5:c.1958C>G:p.Ser653* and c.3491G>A:p.Arg1164Gln) in alpha-protein kinase 3 (ALPK3) gene were identified and confirmed with Sanger sequencing. The trans-position (location on different alleles) of identified ALPK3 variants was established by plasmid cloning method. The ALPK3 gene, encoding nuclear alpha-protein kinase 3, has only recently been associated with CMPs and there are still few clinical data on ALPK3 variant carriers. To date, only five affected individuals with adultonset CMPs in the setting of biallelic variants of ALPK3 gene have been reported.
Donohue syndrome (DS), also called Leprechaunism, is the most severe form of insulin resistance associated with biallelic mutations in INSR gene (OMIM: 147670). The approximate incidence of this syndrome is 1 per 1000000 births. Patients are present with typical clinical features such as intrauterine growth retardation, facial dysmorphism, severe metabolic disturbances, hepatomegaly and hypertrophic cardiomyopathy. Most DS patients die within the first two years of life due to respiratory infections, severe hypoglycemia or progressive cardiomyopathy. Treatment options are limited and no specific therapy exist for DS. Given the similarities between insulin and insulin-like growth factor 1 (IGF-1) receptors, recombinant human IGF-1 (rhIGF-1) has been used to treat severe insulin resistance including DS.We report the case of a male patient with genetically confirmed Donohue syndrome, successfully treated with continuous subcutaneous IGF1 infusion via insulin pump. We observed improvement of glycemic control, liver function and cardiac hypertrophy regression following 15-month IGF1 therapy.
Недостаточность альфа-1-антитрипсина - наследственное заболевание, характеризующееся низким уровнем белка альфа-1-антитрипсина (A1AT) в крови. В основном дефицит A1AT проявляется в виде хронической обструктивной болезни легких (ХОБЛ), эмфиземы, а также поражения печени и сосудов. А1АТ является главным ингибитором сериновых протеаз в крови человека. Недостаточность А1АТ обусловлена мутациями в гене SERPINA1. Наиболее распространенными аллельными вариантами в гене SERPINA1 являются S (p.Glu288Val) и Z (р.Glu366Lys), однако в клинической практике большинство случаев тяжелого дефицита А1АТ связаны с генотипом PIZZ. У пациентов с PIZZ патология легких представляет собой фенотип «потери функции», так как дефицит A1AT приводит к ускоренному разрушению паренхимы легких, приводящему к эмфиземе. При Z-мутации 85% синтезированного белка блокируется в гепатоцитах из-за неправильного сворачивания и полимеризации. Накопление полимеризованного белка в эндоплазматической сети гепатоцитов в свою очередь приводит к хроническим заболеваниям печени у некоторых пациентов: циррозу и злокачественным новообразованиям печени. Дефицит А1АТ является довольно распространенным заболеванием, но выявляется лишь незначительная часть лиц с данной патологией. Недостаточность А1АТ зачастую ошибочно диагностируется как ХОБЛ, бронхиальная астма или криптогенное заболевание печени. Задержка в установлении диагноза составляет обычно более 5 лет (в среднем около 8 лет) что, как правило, связано с плохой осведомленностью врачей, недооценкой его распространенности и вариабельностью клинических проявлений. В настоящее время для лечения дефицита А1АТ с легочными проявлениями возможно применение аугментационной терапии, основанной на внутривенном введении очищенного человеческого А1АТ. Также активно ведется поиск новых препаратов, способных улучшить прогноз у пациентов с патологией печени. Современные подходы в лечении дефицита А1АТ, сосредоточенные на генной терапии, становятся перспективным направлением в лечении как легочной, так и печеночной патологии при дефиците А1АТ. Alpha-1 antitrypsin deficiency is a genetic disorder characterized by low level of alfa-1-antitripsin protein (A1AT) in the blood. Usually, A1AT deficiency results in chronic obstructive pulmonary disease (COPD), emphysemas, liver disease and vessels damaging. A1AT is the main inhibitor of serine proteases in human blood. A1AT deficiency is caused by mutations in the gene SERPINA1. The most common SERPINA1 allelic variants are S (p.Glu288Val) and Z (p.Glu366Lys). However, the most of documented severe cases of A1AD are associated with PIZZ genotype. PIZZ genotype patients have loss-of-function phenotype due to accelerated lung parenchyma destruction resulting in emphysema. Z mutation genotype leads to blocking of 85% synthesized protein in hepatocytes due to wrong folding and polymerization. Accumulation of the bodied protein in hepatocytes endoplasmic reticulum results in chronic liver disease, cirrhosis and other liver pathologies. A1AT deficiency is a common disorder, however, this diagnosis is established in a small part of the patients. A1AT deficiency is often misdiagnosed as COPD, asthma or сryptogenic liver disease. Usually, due to underestimating the prevalence of the disease and its unspecific symptoms, the diagnosis delay is more than 5 years (on average about 8 years). Nowadays it is possible to treat lung form of A1AT deficiency used the augmentation therapy, that bases on intravenous infusions of pure human A1AT. Also, the active development of new drugs to improve the prognosis in the patients with liver pathology is ongoing. Modern approaches of A1AT deficiency treatment, focused on gene therapy, are becoming a promising direction in the managing of both pulmonary and hepatic pathology with A1AT deficiency.
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