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Target Concepts:
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Query: EC:3.6.3.14 (
ATP synthase
)
7,042
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Finland and the Finns have been the subject of numerous genetic and genealogical studies, owing to enrichment of certain rare hereditary disorders in the Finnish population. Two types of NCL have so-far been found almost exclusively in Finland: Finnish variant late infantile NCL, vLINCL (CLN5), and the Northern epilepsy syndrome or Progressive epilepsy with mental retardation,
EPMR
(
CLN8
). The first symptoms of Finnish vLINCL are concentration problems or motor clumsiness by 3 to 6 years of age, followed by mental retardation, visual failure, ataxia, myoclonus, and epilepsy. Northern epilepsy, the newest member of the NCL family with the most protracted course, is characterized by the onset of generalized seizures between 5 and 10 years of age and subsequent progressive mental retardation. Visual problems are slight and late, while myoclonus has not been observed. Both the Finnish vLINCL and Northern epilepsy are pathologically characterized by intraneuronal cytoplasmic deposits of autofluorescent granules which are Luxol fast blue-, PAS-, and Sudan black B-positive in paraffin sections. In Northern epilepsy the intraneuronal storage process and neuronal destruction are generally of mild degree but highly selective and, in contrast to other forms of childhood onset NCL, the cerebellar cortex is relatively spared. By electron microscopy the storage bodies mainly contain rectilinear complex type and fingerprint profiles in Finnish vLINCL and structures resembling curvilinear profiles in Northern epilepsy. Mitochondrial
ATP synthase
subunit c is the main stored protein in both disorders. Both the DCLN5 and
CLN8
genes encode putative membrane proteins with yet unknown functions. Furthermore, a well studied spontaneously occurring autosomal recessive mouse mutant, motor neuron degeneration (mnd) mouse, is a homolog for
CLN8
.
...
PMID:Studies of homogenous populations: CLN5 and CLN8. 1133 69
Lysosomal accumulation of autofluorescent, ceroid lipopigment material in various tissues and organs is a common feature of the neuronal ceroid lipofuscinoses (NCLs). However, recent clinicopathologic and genetic studies have evidenced that NCLs encompass a group of highly heterogeneous disorders. In five of the eight NCL variants distinguished at present, genes associated with the disease process have been isolated and characterized (CLN1, CLN2, CLN3, CLN5,
CLN8
). Only products of two of these genes, CLN 1 and CLN2, have structural and functional properties of lysosomal enzymes. Nevertheless, according to the nature of the material accumulated in the lysosomes, NCLs in humans as well as natural animal models of these disorders can be divided into two major groups: those characterized by the prominent storage of saposins A and D, and those showing the predominance of subunit c of mitochondrial
ATP synthase
accumulation. Thus, taking into account the chemical character of the major component of the storage material, NCLs can be classified currently as proteinoses. Of importance, although lysosomal storage material accumulates in NCL subjects in various organs, only brain tissue shows severe dysfunction and cell death, another common feature of the NCL disease process. However, the relation between the genetic defects associated with the NCL forms, the accumulation of storage material, and tissue damage is still unknown. This chapter introduces the reader to the complex pathogenesis of NCLs and summarizes our current knowledge of the potential consequences of the genetic defects of NCL-associated proteins on the biology of the cell.
...
PMID:Cellular pathology and pathogenic aspects of neuronal ceroid lipofuscinoses. 1133 76
This chapter summarizes the recent advances that have been made with respect to biochemical characterization of the neurodegenerative diseases collectively known as neuronal ceroid lipofuscinoses (NCL) or Batten disease. Genomic and proteomic approaches have presently identified eight different forms of NCL (namely, CLN1 through
CLN8
) based on mutations in specific genes. CLN1 and CLN2 are caused by mutations in genes that encodes lysosomal enzymes,palmitoyl protein thioesterase and pepstatin-insensitive proteinase, respectively. The protein involved in the etiology of CLN3 is a highly hydrophobic, presumably transmembrane protein. NCL are considered as lysosomal storage diseases because of the accumulation of autofluorescent inclusion bodies. The composition of inclusion bodies varies in different forms of the NCL. The major storage component in CLN2 is the subunit c of mitochondrial
ATP synthase
complex and its accumulation is the direct result of lack of CLN2p in this disease. Mannose-6-phosphorylated glycoproteins accumulate in CLN3 and most likely their accumulation is the result of an intrinsic activity of the CLN3 protein. Significant levels of oligosaccharyl diphosphodolichol also accumulate in CLN3 and CLN2, whereas lysosomal sphingolipid activator proteins (saposins A and D) constitute major component of the storage material in CLN 1. The issue of selective loss of neuronal and retinal cells in NCL still remains to be addressed. Identification of natural substrates for the various enzymes involved in NCL may help in the characterization of the cytotoxic factor(s) and also in designing rationale therapeutic interventions for these group of devastating diseases.
...
PMID:Biochemistry of neuronal ceroid lipofuscinoses. 1133 78
We describe the neuropathological and biochemical autopsy findings in 3 patients with autosomal dominant adult neuronal ceroid lipofuscinosis (ANCL, Parry type; MIM 162350), from a family with 6 affected individuals in 3 generations. Throughout the brain of these patients, there was abundant intraneuronal lysosomal storage of autofluorescent lipopigment granules. Striking loss of neurons in the substantia nigra was found. In contrast, little neuronal cell loss occurred in other cerebral areas, despite massive neuronal inclusions. Visceral storage was present in gut, liver, cardiomyocytes, skeletal muscle, and in the skin eccrine glands. The storage material showed highly variable immunoreactivity with antiserum against subunit c of mitochondrial
ATP synthase
, but uniform strong immunoreactivity for saposin D (sphingolipid activating protein D). Protein electrophoresis of isolated storage material revealed a major protein band of about 14 kDa, recognized in Western blotting by saposin D antiserum (but not subunit c of
mitochondrial ATPase
(SCMAS) antiserum). Electron microscopy showed ample intraneuronal granular osmiophilic deposits (GRODs), as occurs in CLN1 and congenital ovine NCL. These forms of NCL are caused by the deficiencies of palmitoyl protein thioesterase 1 and cathepsin D, respectively. However, activities of these enzymes were within normal range in our patients. Thus we propose that a gene distinct from the cathepsin D and CLN1-
CLN8
genes is responsible for this autosomal dominant form of ANCL.
...
PMID:Autosomal dominant adult neuronal ceroid lipofuscinosis: a novel form of NCL with granular osmiophilic deposits without palmitoyl protein thioesterase 1 deficiency. 1465 61
Neuronal ceroid lipofuscinoses are a group of diseases characterized by accumulation of hydrophobic proteins in lysosomes of neurons and other types of cells. NCLs are caused by at least 8 mutant genes (CLN1-
CLN8
), though CLN4 and CLN7 have not yet been identified. Except for Cln1p, the protein encoded by CLN1, the defective proteins are associated with lysosomal accumulation of mitochondrial
ATP synthase
subunit c. Cln1p and Cln2p are soluble lysosomal enzymes, targeted to lysosomes in a mannose 6-phosphate dependent manner. Mutations in the lysosomal protease cathepsin D cause another NCL. Cln3p, Cln5p, Cln6p and Cln8p are thought to be transmembrane proteins. Cln3p and Cln5p are localized in the endosome-lysosomal compartment. Deficiency of endosomal membrane protein CLC-3, a member of the chloride channel family, causes NCL-like phenotype and lysosomal storage of subunit c. Herein, we review the features of NCL and NCL-related proteins and discuss the involvement of the proteins in lysosomal degradation of subunit c.
...
PMID:The intracellular location and function of proteins of neuronal ceroid lipofuscinoses. 1499 40
Neuronal ceroid lipofuscinoses (NCLs) are a group of lysosomal storage diseases characterized by neurological impairment and blindness. NCLs are almost always due to single mutations in different genes (CLN1-
CLN8
). Ubiquitous accumulation of undigested material and of a hydrophobic inner mitochondrial membrane protein, the subunit c of mitochondrial
ATP synthase
, has been described. Although protein mutation(s) in the endoplasmic reticulum-lysosomes axis can modify the trafficking and the recycling of different molecules, one of the upstream targets in these diseases may be represented by the balance of gene expression. To understand if and how neurons modify the levels of important genes during the first phases of the disease, it is important to characterize the mechanisms of neurodegeneration. Due to the impossibility of performing this analysis in humans, alternative models of investigation are required. In this study, a mouse model of human NCL8, the mnd mouse has been employed. The mnd mice recapitulate many clinical and histopathological features described in NCL8 patients. In this study, we found an altered expression of different genes in both central and peripheral organs associated with lipopigment accumulation. This is a preliminary approach, which could also be of interest in providing new diagnostic tools for NCLs.
...
PMID:Lipofuscin accumulation and gene expression in different tissues of mnd mice. 2239 41
Neuronal Ceroid Lipofuscinoses (NCLs) are progressive degenerative diseases mainly affect brain and retina. They are characterized by accumulation of autofluorescent storage material,
mitochondrial ATPase
subunit C, or sphingolipid activator proteins A and D in lysosomes of most cells. Heterogenous storage material in NCLs is not completely disease-specific. Most of CLN proteins and their natural substrates are not well-characterized. Studies have suggested variants of Late-Infantile NCLs (LINCLs) include the major type CLN2 and minor types CLN5, CLN6, CLN7, and
CLN8
. Therefore, combination of clinical and molecular analysis has become a more effective diagnosis method. We studied 4 late-infantile NCL siblings characterized by seizures, ataxia as early symptoms, followed by progressive regression in intelligence and behavior, but mutations are located in different genes. Symptoms and progression of 4 types of LINCLs are compared. Pathology of LINCLs is also discussed. We performed Nest-Generation Sequencing on these phenotypically similar families. Three novel variants c.1551+1insTGAT in TPP1, c.244G>T in CLN6, c.554-5A>G in MFSD8 were identified. Potential outcome of the mutations in structure and function of proteins are studied. In addition, we observed some common and unique clinical features of Chinese LINCL patient as compared with those of Western patients, which greatly improved our understanding of the LINCLs.
...
PMID:Next-Generation Sequencing Analysis Reveals Novel Pathogenic Variants in Four Chinese Siblings With Late-Infantile Neuronal Ceroid Lipofuscinosis. 3110 43
