A novel compound heterozygous mutation of GNPTAB gene underlying a case with mucolipidosis type II α/β / 中华医学遗传学杂志

OBJECTIVE@#To analyze the clinical features and genetic mutations in a patient with mucolipidosis type II α/β by using next generation sequencing.@*METHODS@#Clinical data of the patient was collected. Genomic DNA of the patient and her parents was extracted by a standard method. The patient was subjected to targeted sequencing using an Ion Ampliseq panel, which included genes related to mucolipidosis and mucopolysaccharidosis. Suspected mutations were verified by Sanger sequencing.@*RESULTS@#Compound heterozygous mutations, namely c.1284+1G>T and c.1090C>T (p.Arg364*), were detected in the patient, which were respectively inherited from her mother and father. No other disease-causing mutation was detected in the patient. GNPTAB c.1090C>T was known to be pathogenic, while GNPTAB c.1284+1G>T is a novel mutation. The same mutations were not detected among 50 healthy controls.@*CONCLUSION@#The compound heterozygous mutations c.1284+1G>T and c.1090C>T (p.Arg364*) of GNPTAB gene probably account for the mucolipidosis type II α/β in the patient. NGS has a great value for the molecular diagnosis and typing of mucolipidosis.

Mutation analysis of large tumor suppressor genes LATS1 and LATS2 supports a tumor suppressor role in human cancer

In recent years, human cancer genome projects provide unprecedented opportunities for the discovery of cancer genes and signaling pathways that contribute to tumor development. While numerous gene mutations can be identified from each cancer genome, what these mutations mean for cancer is a challenging question to address, especially for those from less understood putative new cancer genes. As a powerful approach, in silico bioinformatics analysis could efficiently sort out mutations that are predicted to damage gene function. Such an analysis of human large tumor suppressor genes, LATS1 and LATS2, has been carried out and the results support a role of hLATS1//2 as negative growth regulators and tumor suppressors.

Genes that encodes NAGT, MIF1 and MIF2 are not virulence factors for kala-azar caused by Leishmania infantum

Introduction Kala-azar is a disease resulting from infection by Leishmania donovani and Leishmania infantum. Most patients with the disease exhibit prolonged fever, wasting, anemia and hepatosplenomegaly without complications. However, some patients develop severe disease with hemorrhagic manifestations, bacterial infections, jaundice, and edema dyspnea, among other symptoms, followed by death. Among the parasite molecules that might influence the disease severity are the macrophage migration inhibitory factor-like proteins (MIF1 and MIF2) and N-acetylglucosamine-1-phosphotransferase (NAGT), which act in the first step of protein N-glycosylation. This study aimed to determine whether MIF1, MIF2 and NAGT are virulence factors for severe kala-azar. Methods To determine the parasite genotype in kala-azar patients from Northeastern Brazil, we sequenced the NAGT genes of L. infantum from 68 patients as well as the MIF1 and MIF2 genes from 76 different subjects with diverse clinical manifestations. After polymerase chain reaction (PCR), the fragments were sequenced, followed by polymorphism identification. Results The nucleotide sequencing of the 144 amplicons revealed the absence of genetic variability of the NAGT, MIF1 and MIF2 genes between the isolates. The conservation of these genes suggests that the clinical variability of kala-azar does not depend upon these genes. Additionally, this conservation suggests that these genes may be critical for parasite survival. Conclusions NAGT, MIF1 and MIF2 do not alter the severity of kala-azar. NAGT, MIF1 and MIF2 are highly conserved among different isolates of identical species and exhibit potential for use in phylogenetic inferences or molecular diagnosis. .

Alcohol-induced proliferation of neurons in mouse hippocampal dentate gyrus: a possible role of ceramide / 生理学报

To investigate the role and mechanism of ceramide (Cer) regulation in alcohol-induced neuronal proliferation and the newborn neurons formation, we used sphingomyelin synthase 2 (predominant enzyme of Cer metabolism) knockout (SMS2(-/-)) and wild type (WT) female mice to establish the model of prenatal alcohol exposure. In 24 h after being given birth (postnatal day 0, P0), the offspring of model mice received blood sphingomyelin (SM) measurement with enzymatic method. On P0, P7, P14 and P30, the proliferation of granule cells in the dentate gyrus and newborn neurons were investigated with immunofluorescent labeling. The expression of protein kinase Cα (PKCα) in the hippocampus was tested with Western blot analysis. The results showed that the SM level of blood in SMS2(-/-) pups was significantly lower than that in WT pups. No matter in SMS2(-/-) or WT mice, the prenatal alcohol exposure down-regulated the SM levels in pups with dose-dependency. In both SMS2(-/-) and WT pups, the number of proliferative neurons and newborn neurons in the dentate gyrus gradually decreased with the growing age. Compared with the WT pups, SMS2(-/-) pups showed significantly more proliferative neurons and newborn neurons in the dentate gyrus. Notably, prenatal alcohol exposure dose-dependently increased proliferative neurons and newborn neurons in the dentate gyrus in both WT and SMS2(-/-) pups. The hippocampal expression of PKCα protein in SMS2(-/-) mice was lower than that in WT mice, and prenatal alcohol exposure could up-regulate the PKCα protein expression in both WT and SMS2(-/-) mice with dose dependency. These results suggest that alcohol exposure during pregnancy can induce the compensatory neural cell proliferation and the production of newborn neurons in offspring, and the Cer-ceramide-1-phosphate (C1P) pathway is involved in alcohol-induced neural cell proliferation. The activation of PKCα may be a key step to start the Cer-C1P pathway and up-regulate the alcohol-induced neural cell proliferation and the newborn neurons formation.

Difficult intubation management in a child with I-cell disease

I-cell disease [mucolipidosis II] is a rare metabolic disorder resulting from the deficiency of a specific lysosomal enzyme, N-acetylglucosamine-1-phosphotransferease. Developmental delay and growth failure are common presentations of I-cell disease. Psychomotor deterioration is rapid and progressive. Some physical signs such as hip dislocations, inguinal hernia, hepatomegaly, joint limitation, and skin changes may be present at birth. Coarse facial features and skeletal abnormalities become more conspicuous with time. The life expectancy of children with this condition is poor, with death usually occurring around the fifth year. A case report of the anesthetic management of gingivectomy with multiple dental extractions in a 5-year-old Omani female with I-cell disease is presented. The problems faced and their management during anesthesia are described

Sphingomyelin synthase 2 deficiency decreases atherosclerosis and inhibits inflammation in mice / 生理学报

Plasma sphingomyelin (SM) has been shown to be an independent risk factor for coronary heart disease, and sphingomyelin synthase 2 (SMS2) contributes to de novo SM biosynthesis and plasma membrane SM levels. The aim of the present study is to evaluate the in vivo role of SMS2 deficiency in serum SM metabolism and atherosclerosis (AS) development. We used male SMS2 knockout (SMS2(-/-)) and C57BL/6J (wild-type, WT) mice as experimental and control groups, respectively. Each group was fed high-fat diet (1% cholesterol, 20% leaf fat), as well as bile salt for accelerating the atherosclerotic formation. After three months of feeding, the mice were killed to observe aortic arches and oil red-stained longitudinal sections of thoracoabdominal aortae. Fasting blood samples were taken from the tail vein before and after high-fat diet, and the serum lipid and SM levels were measured by using kits and enzymatic method respectively. Western blot was used to analyze the contents of nuclear factor-kappaB (NFkappaB) p65 subunit in peritoneal macrophages stimulated with lipopolysaccharide (LPS) after high-fat diet. The results showed that after high-fat diet, SMS2(-/-) mice presented decreased atherosclerotic lesions in aortic arch and thoracoabdominal aorta compared with WT mice. Regardless of whether high-fat diet were given or not, SMS2(-/-) mice showed a significant decrease in serum SM level (P<0.05), but no significant changes in serum lipid levels, compared with WT mice. The expressions of NFkappaB p65 were attenuated in macrophages from SMS2(-/-) mice in response to LPS stimulation compared with those of the WT mice. These results suggest that SMS2 deficiency decreases AS and inhibits inflammation in mice. Thus, SMS2 deficiency may be a potential therapeutic strategy.

Further characterization of negative regulatory element involved in the hormonal regulation of GlcNAc-1-P transferase gene in mouse mammary gland.

The gene encoding UDP-GlcNAc:dolichol phosphate N-acetylglucosamine-1-phosphate transferase (GPT), the enzyme that initiates the pathway for the biosynthesis of asparagine-linked glycoproteins, is ubiquitously expressed in eukaryotic cells. However, its expression in the mammary gland is developmentally and hormonally regulated; transcription of the mouse mammary GPT gene is stimulated by the lactogenic hormones, insulin, glucocorticoid, and prolactin. Earlier, we demonstrated that a distal negative regulatory element in mouse GPT (mGPT) promoter plays an important role in developmental and hormonal control of mGPT gene expression in mammary gland (Ma J, Saito H, Oka T and Vijay IK (1996) J Biol Chem, in press). In this report, a tissue distribution of the repressor that binds the negative regulatory element was examined; a comparison of the negative regulatory element to other consensus sequences for known transcription factors is discussed.