EC:3.6.3.14 - FACTA Search

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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)

The molecular defects underlying neuronal ceroid-lipofuscinoses (NCL) are still unknown. However, more data exist on the composition of the hydrophobic storage material characteristic of NCL. Accumulation of subunit c of the mitochondrial ATP synthase has been shown in most forms of human NCL with the exception of the infantile NCL (INCL) for which we have recently demonstrated storage of sphingolipid activator proteins (SAP). In the present study we raised an antiserum against storage cytosomes purified from INCL brain. Using the anti-INCL antiserum and monospecific SAP antisera, we studied storage material isolated from the brains of patients affected with NCL by Western analysis, and found a 12-kDa protein showing a SAP-like immunoreactivity not only in INCL, but also in all the childhood forms of NCL. Furthermore, using the anti-sap-D antiserum for immunohistochemistry, we observed strong immunoreactivity of the storage cytosomes in all major forms of NCL, and also in tissues of non-neuroectodermal origin. From these data we conclude that the presence of SAP within the storage bodies is a phenomenon common to all major forms of human NCL.
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PMID:Sphingolipid activator proteins in the neuronal ceroid-lipofuscinoses: an immunological study. 761 36

Analysis of storage bodies in the ceroid-lipofuscinoses (Batten disease) has demonstrated a high protein content suggestive of a proteinosis. Direct N-terminal sequencing has shown that subunit c of mitochondrial ATP synthase is specifically stored in the disease in sheep and cattle, and in the human late infantile and juvenile diseases, as well as in 3 breeds of dogs. No differences have been found between the stored subunit c and that in normal mitochondria. No other mitochondrial components are stored. Different proteins, sphingolipid activator proteins (SAPs or saposins) A and D, are stored in the infantile disease. Linkage studies have shown that different forms of ceroid-lipofuscinosis are coded for on different genes on different chromosomes. The genes for subunit c, its production, its insertion into mitochondria, and mitochondrial function are normal. This suggests that underlying the various forms of the disease is a family of lesions in the normal pathway of subunit c turnover, after its normal insertion into the ATP synthase complex. Antibodies to subunit c offer one way of mapping that pathway and detecting the sites of lesions. Specific antibodies have been raised against stored subunit c, using a liposomal adjuvant system which proved superior to classical adjuvants. These antibodies are also useful diagnostically, both in Western blotting and in immunocytochemistry.
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PMID:Batten disease and the ATP synthase subunit c turnover pathway: raising antibodies to subunit c. 766 42

The tissues from three patients with late-infantile NCL originally described by Max Bielschowsky became available to apply modern techniques such as fluorescence microscopy, electron microscopy and immunohistochemistry. While regular tinctorial preparations of the tissues documented a neuronal storage disorder in all three patients' tissues, the accumulated material proved to be autofluorescent, showed the ultrastructure of curvilinear lipopigments, and reacted strongly with an antibody against the subunit-C of mitochondrial ATP synthase, a major component of lipopigments in NCL and also with an antibody against sphingolipid activator proteins. Thus, these modern morphological techniques demonstrated that the originally described three siblings with late-infantile "amaurotic familial idiocy" really had neuronal ceroid-lipofuscinosis of the late-infantile or Jansky-Bielschowsky type, according to current diagnostic criteria. This type of archival study may also contribute to the mosaic of medical history.
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PMID:Neuronal ceroid-lipofuscinosis--late-infantile or Jansky-Bielschowsky type--revisited. 886 79

The neuronal ceroid-lipofuscinoses (NCL, Batten disease) are fatal inherited neurodegenerative diseases of children characterized by retinal and brain atrophy and the accumulation of electron-dense storage bodies in cells. Mutations in different genes underlie different major forms. The infantile disease (CLN-1, McKusick 256730) is distinguished by the storage of the sphingolipid activator proteins (SAPs) A and D in distinctive granular osmiophilic deposits (GRODs). This contrasts with the other major forms, where subunit c of mitochondrial ATP synthase is stored in various multilamellar profiles. Ceroid-lipofuscinoses also occur in dogs, including a form in miniature Schnauzers with distinctive granular osmiophilic deposit-like storage bodies. Antisera to SAPs A and D reacted to these storage bodies in situ. The presence of SAP D was confirmed by Western blotting and of SAP A by protein sequencing. Neither subunit c of mitochondrial ATP synthase nor of vacuolar ATPase is stored. This suggests that there are two families of ceroid-lipofuscinoses, the subunit c-storing forms, and those in which SAPs A and D, and perhaps other proteins, accumulate. Further work is required to determine whether other forms with granular osmiophilic deposits belong to the latter class and the genetic relationships between them and the human infantile disease.
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PMID:Accumulation of sphingolipid activator proteins (SAPs) A and D in granular osmiophilic deposits in miniature Schnauzer dogs with ceroid-lipofuscinosis. 906 71

The neuronal ceroid-lipofuscinoses (NCL) are among the most common inherited neurodegenerative disorders of childhood. The genomic defect causing a variant late infantile neuronal ceroid-lipofuscinosis (vLINCL, also called CLN-5 or variant Jansky-Bielschowsky disease) has recently been localized to chromosome 13q22, thus delineating this disease as a separate entity. This particular form of NCL is clinically well defined, but lacks pathomorphological and biochemical description. The present analyses indicate that subunit c of the mitochondrial ATP synthase is the major protein in vLINCL brain storage cytosomes. These cytosomes also contain minor amounts of sphingolipid activator proteins (SAPs). The immunohistological distribution of subunit c and SAPs in the central nervous system (CNS) and visceral tissues closely resembles that of classical LINCL. Thus, despite clinical differences and the fact that various forms of NCL are caused by different genetic defects, variant and classical LINCL as well as juvenile NCL are all characterized by pronounced lysosomal accumulation of the same hydrophobic protein, subunit c of the mitochondrial ATP synthase.
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PMID:Variant late infantile neuronal ceroid-lipofuscinosis: pathology and biochemistry. 910 Jun 67

Since the discovery of mitochondrial ATP synthase subunit c storage in different forms of neuronal ceroid lipofuscinosis (NCL, Batten disease), it has been found that other hydrophobic proteins also accumulate in different forms. Costorage of subunit c of vacuolar ATPase is observed in "mnd/mnd" mice and in English Setters, Border Collies and Tibetan Terriers. A small amount is stored in the ovine disease and none in the human late-infantile disease. It is a storage body matrix component. An additional 8 kDa component immunoreactive to vacuolar ATPase subunit c antibodies is found in brain-derived storage bodies. The sphingolipid activator proteins, SAPs A and D, are stored in the human infantile disease and a form in Miniature Schnauzer dogs, but neither of the c subunits are. These results suggest two classes of NCL, the subunit c-storing diseases, related by a series of lesions in a subunit c-turnover pathway, and the SAP-storing diseases.
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PMID:Different patterns of hydrophobic protein storage in different forms of neuronal ceroid lipofuscinosis (NCL, Batten disease). 915 21

Based on the predominant component of the storage material the neuronal ceroid lipofuscinoses (NCL) can be divided into two categories: one storing mitochondrial ATP synthase subunit c and the other storing sphingolipid activator proteins (SAPs). The latter group is represented by the human infantile NCL (INCL), a congenital ovine NCL, and a canine NCL. Small amounts of SAPs also accumulate in most other forms of NCL. The SAPs, their functions and occurrence in different forms of NCL, as well as the relationship between SAPs and palmitoyl protein thioesterase, an enzyme implicated in INCL, are discussed.
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PMID:Sphingolipid activator proteins (SAPs) in neuronal ceroid lipofuscinoses (NCL). 915 22

The stored material in neuronal ceroid lipofuscinosis (NCL) undergoes, irrespective of the disease type, a uniform modification, altering profoundly its physical and histochemical properties. The process is accompanied by loss of immunodetectable epitopes of subunit c of mitochondrial ATP synthase (SCMAS) in the transformed storage material in NCL2 and NCL6 and of sphingolipid activator proteins (SAPs) A and D in NCL1, NCL2, and NCL6. It is restricted to certain subcortical brain nuclei, typically nucleus niger, dentatus, lentiformis, and thalamus. The process is coupled with progressive enlargement of the deposits caused probably by aggregation and fusion of the storage lysosomes. This ensues in formation of larger pleiomorphic perikaryal corpuscles, the spheroids being only one special form in the spectrum. The process was found to be most intensive in NCL2 brains. As the neuronal unmodified storage deposits tend also to be present in aggregate form, care must be taken to distinguish spheroids composed of modified from those composed of unmodified storage material.
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PMID:Incidence of neuronal perikaryal spheroids in neuronal ceroid lipofuscinoses (Batten disease). 970 31

Northern epilepsy is an autosomal recessive childhood onset epilepsy syndrome, clinically characterized by generalized tonic-clonic seizures with onset at 5 to 10 years of age and subsequent slowly progressive mental deterioration. The patients may reach 50 or 60 years of age. A mutation responsible for the disease has recently been identified in a novel gene on chromosome 8p23, encoding a putative membrane protein with an unknown function. The present study, based on three autopsied patients, is the first neuropathological analysis of the disease, and showed intraneuronal accumulation of cytoplasmic autofluorescent granules. The granules were strongly stained by the Luxol fast blue, periodic acid-Schiff, and Sudan black B methods in paraffin sections, and were immunoreactive for subunit c of the mitochondrial ATP synthase and sphingolipid activator proteins A and D. The intraneuronal storage was highly selective: the third layer of the isocortex and the hippocampal CA2, CA3, and CA4 sectors were severely affected, while other layers of the isocortex, the CA1 sector, and the cerebellar cortex were only minimally involved. The membrane-bound storage cytosomes showed a curvilinear ultrastructure with admixture of some granular components. Western blotting and N-terminal sequence analysis of purified storage material identified subunit c as the major component. These findings establish Northern epilepsy as a new form of neuronal ceroid-lipofuscinosis with an exceptionally protracted course.
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PMID:Northern epilepsy: a novel form of neuronal ceroid-lipofuscinosis. 1076 41

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.
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PMID:Biochemistry of neuronal ceroid lipofuscinoses. 1133 78

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