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Onset Forms (onset + form)

Distribution by Scientific Domains
Medical Sciences60%
Life Sciences40%

Selected Abstracts

Changes in red cell ion transport, reduced intratumoral neovascularization, and some mild motor function abnormalities accompany targeted disruption of the Mouse Kell gene (Kel),

AMERICAN JOURNAL OF HEMATOLOGY, Issue 8 2009
Xiang Zhu
Kell (ECE-3), a highly polymorphic blood group glycoprotein, displays more than 30 antigens that produce allo-antibodies and, on red blood cells (RBCs), is complexed through a single disulfide bond with the integral membrane protein, XK. XK is a putative membrane transporter whose absence results in a late onset form of neuromuscular abnormalities known as the McLeod syndrome. Although Kell glycoprotein is known to be an endothelin-3-converting enzyme, the full extent of its physiological function is unknown. To study the functions of Kell glycoprotein, we undertook targeted disruption of the murine Kel gene by homologous recombination. RBCs from Kel(,/,) mice lacked Kell glycoprotein, Kell/XK complex, and endothelin-3-converting enzyme activity and had reduced levels of XK. XK mRNA levels in spleen, brain, and testis were unchanged. In Kel(,/,) mice RBC Gardos channel activity was increased and the normal enhancement by endothelin-3 was blunted. Analysis of the microvessels of tumors produced from LL2 cells indicated that the central portion of tumors from wild-type mice were populated with many mature blood vessels, but that vessels in tumors from Kel(,/,) mice were fewer and smaller. The absence of Kell glycoprotein mildly affected some motor activities identified by foot splay on the drop tests. The targeted disruption of Kel in mouse enabled us to identify phenotypes that would not be easily detected in humans lacking Kell glycoprotein. In this regard, the Kell knockout mouse provides a good animal model for the study of normal and/or pathophysiological functions of Kell glycoprotein. Am. J. Hematol., 2009. © 2009 Wiley-Liss, Inc. [source]

Dysregulation of human bestrophin-1 by ceramide-induced dephosphorylation

THE JOURNAL OF PHYSIOLOGY, Issue 18 2009
Qinghuan Xiao
Best vitelliform macular dystrophy is an inherited autosomal dominant, juvenile onset form of macular degeneration caused by mutations in a chloride ion channel, human bestrophin-1 (hBest1). Mutations in Best1 have also been linked to several other forms of retinopathy. In addition to mutations, hBest1 dysfunction might come about by disruption of other processes that regulate Best1 function. Here we show that hBest1 chloride channel activity is regulated by ceramide and phosphorylation. We have identified a protein kinase C (PKC) phosphorylation site (serine 358) in hBest1 that is important for sustained channel function. Channel activity is maintained by PKC activators, protein phosphatase inhibitors, or pseudo-phosphorylation by substitution of glutamic acid for serine 358. When ceramide levels are elevated by exogenous addition of ceramide to the bath, by addition of bacterial sphingomyelinase, or by hypertonic stress, S358 is rapidly dephosphorylated. The dephosphorylation is mediated by protein phosphatase 2A. Hypertonic stress-induced dephosphorylation is blocked by a dihydroceramide, an inactive form of ceramide, and manumycin, an inhibitor of neutral sphingomyelinase. Our results support a model in which ceramide accumulation during early stages of retinopathy inhibits hBest1 function, leading to abnormal fluid transport across the retina, and enhanced inflammation. [source]

Myotonic dystrophy: muscle involvement in relation to disease type and size of expanded CTG-repeat sequence

DEVELOPMENTAL MEDICINE & CHILD NEUROLOGY, Issue 7 2005
Anna-Karin Kroksmark PT Msc
This study aimed to: classify a cohort of children and adolescents with myotonic dystrophy (dystrophia myotonica: DM) into congenital and childhood onset forms; estimate CTG expansion size; and quantify muscle strength, contractures, and motor function in children with DM and compare results with those of controls. Participants were clinically examined, medical records were reviewed, and isometric muscle strength, contractures, and motor function were measured. Participants were: 42 children with DM (18 females, 24 males; mean age 8y 9mo [SD 4y 7mo], range 10mo to 17y) and 42 age- and sex-matched, healthy controls. Children with DM were divided into three groups: severe congenital (n=13), mild congenital (n=15), and childhood (n=14). Children with childhood DM were significantly weaker than controls (wrist and ankle dorsiflexors [p=0.0044, p=0.0044 respectively]; hip abductors and flexors [p=0.0464, p=0.0217]; and knee flexors and extensors: [p=0.0382, p=0.0033]). Children with mild congenital DM were significantly weaker than controls in all assessed muscle groups Contractures and skeletal deformities were more frequent at time of investigation than at birth, suggesting that foot and spine deformities in particular increase over time. Motor function score was significantly lower for children with DM than for controls. Children with severe congenital DM had the lowest motor function, with correlation between motor function and size of CTG repeat (p=-0.743). Children found jumping, heel standing, and head lifting the most difficult items to perform but few had difficulty walking, running, or stair climbing. DM in children is a heterogeneous disorder with a wide spectrum of muscle involvement, and owing to increased risk of contractures and skeletal deformities, regular follow-ups are recommended. [source]

A single mutation in the GALC gene is responsible for the majority of late onset Krabbe disease patients in the Catania (Sicily, Italy) region,,

HUMAN MUTATION, Issue 7 2007
Willy Lissens
Abstract A high proportion of patients with late onset forms of Krabbe disease is observed in a region north of Catania in Sicily. Molecular analysis in five families from this region shows that this condition is mainly due to a not previously described p.Gly41Ser substitution in the GALC gene that abolishes catalytic activity of the galactocerebrosidase enzyme, as shown by expression studies. Three patients were homozygous for this mutation, the other two were heterozygous, one with a frameshift mutation and one with a missense mutation on the second allele. Therefore, the mutation must be a mild one since it leads to late onset disease in all patients. In addition, it is on a unique haplotype indicating that it represents a founder mutation. This is also supported by the fact that the mutation was not found in three late onset patients from other regions in Sicily, in whom four novel mutations were identified. © 2007 Wiley-Liss, Inc. [source]

Novel primary immunodeficiencies relevant to internal medicine: novel phenotypes

JOURNAL OF INTERNAL MEDICINE, Issue 6 2009
L. Maródi
Abstract. Primary immunodeficiencies (PIDs) are often recognized in adults, either because of delayed diagnosis of a paediatric illness, or increasingly because of the recognition of adult onset forms of these diseases. Moreover, a growing fraction of children diagnosed with PIDs reach adulthood. It has become clear that many of these conditions affect various organs and therefore will be referred to professionals from various fields of internal medicine. It is well known that infectious diseases, allergy, auto-immunity and cancer may result from PIDs. Surprisingly, other clinical manifestations were recently found to reflect inborn errors of immunity. Ground-breaking discoveries suggest that atypical haemolytic uraemic syndrome, Crohn's disease, and alveolar proteinosis may actually be manifestations of novel PIDs. [source]