Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Late-infantile ceroid-lipofuscinosis is a fatal autosomal recessively inherited disease characterized by massive accumulations of lysosomal storage bodies in many tissues. A major constituent of the storage bodies is the subunit c protein of mitochondrial ATP synthase. Juvenile ceroid-lipofuscinosis, a disease that is similar to but genetically distinct from the late-infantile disorder, also involves lysosomal accumulation of the subunit c protein. In the juvenile disease, the stored form of the protein contains an epsilon-N-trimethyllysine (TML) residue at position 43. Analyses were performed to determine whether subunit c protein stored in the late-infantile disease is also trimethylated at lysine residue 43. Amino acid composition analysis of the subunit c protein stored in brains from subjects with the late-infantile disease indicated that one of the two lysine residues in the protein is trimethylated. Data from molecular mass analysis of the protein was consistent with the presence of three methyl groups not present in the unmodified protein. The TML in the storage body subunit c protein was found by amino acid sequence analysis to occur exclusively at residue 43. The lysine at this position in the stored protein was completely methylated. Recent studies suggest that the subunit c protein from normal mitochondria may also have the same amino acid modification. Thus, it appears that specific methylation of lysine residue 43 of mitochondrial ATP synthase subunit c is probably a normal post-translational modification, and that the lysosomal storage of this protein in late-infantile, as well as in juvenile ceroid-lipofuscinosis, does not result from a defect in its methylation.
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PMID:Late-infantile ceroid-lipofuscinosis: lysine methylation of mitochondrial ATP synthase subunit c from lysosomal storage bodies. 924 91

A 9-month-old domestic shorthair cat was humanely killed because of uncoordinated gait, myoclonus, seizures and reduced vision. Histological, immunohistochemical and ultrastructural examination revealed a neuronal storage disease consistent with neuronal ceroid-lipofuscinosis (NCL). Neurons contained Sudan black- and luxol fast blue-positive material which was autofluorescent. Immunohistochemically, the storage material was found to contain subunit c of mitochondrial ATP synthase, a protein recently recognized as the main component of the storage material in NCL. Ultrastructurally, the material consisted of curvilinear and fingerprint bodies, which are indicative of NCL.
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PMID:Neuronal ceroid-lipofuscinosis in a domestic cat: clinical, morphological and immunohistochemical findings. 926 41

We have collected 122 late-infantile neuronal ceroid lipofuscinosis (LINCL, CLN2) and 191 juvenile NCL (JNCL, CLN3) cases, diagnosed on the basis of age-at-onset, clinical symptomatology, and pathological findings and representing the most common forms of NCL in the United States, and Europe. However, careful analysis of available data revealed that about 80% of cases show typical and 20% show atypical clinical course and/or pathological findings and thus, may represent variants of LINCL and JNCL, respectively. Recent progress in the biochemistry and molecular genetics of NCL inclined us to reevaluate these atypical NCL cases. The gene responsible for LINCL has not yet been identified, except for the Finnish variant. Accumulation of subunit c of mitochondrial ATP synthase, to curvilinear profiles, is found in LINCL cases. A novel variant of LINCL, with predominantly granular profiles in the lysosomal storage, as well as normal excretion of subunit c in urine samples, was found in five cases. When the palmitoyle-protein thioesterase (PPT) was studied in these five cases, it was found that the level was deficient, suggesting that they are not LINCL, but the infantile form of neuronal ceroid lipofuscinosis (INCL). Using molecular genetic techniques in the typical JNCL cases, common 1.02 kb deletion to CLN3 was found in 23/27 (homozygotes) and in one allele 4/27 (heterozygotes) in affected pedigrees. In atypical JNCL pedigrees, it was found in 5/16 heterozygotes, while in 1/5 pedigrees, a novel mutation of one atypical JNCL where a single amino acid substitution at 295 E-->K was found in one allele. None of the atypical JNCL cases was homozygote. In atypical JNCL cases where mutation in CLN3 has not been identified (11/16 probands), several possibilities may exist. The phenotype may be caused by a yet undefined mutation in CLN3 or may be due to phenotypically overlapping with other forms of NCL. Pheno/genotypic correlation and the diagnostic difficulties are discussed.
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PMID:Atypical late infantile and juvenile forms of neuronal ceroid lipofuscinosis and their diagnostic difficulties. 937 79

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

Since the last, 6th, International Congress on Neuronal Ceroid-Lipofuscinoses, neuropathological advances in neuronal ceroid lipofuscinoses (NCL) have been made in several areas: (1) In adult NCL (ANCL) lipopigments have now been repeatedly confirmed to contain subunit c of mitochondrial ATP synthase and even sphingolipid activators (saposins). ANCL lipopigments have also been confirmed in extracerebral tissues including skin, skeletal muscle, and spleen, but not yet lymphocytes (2). Among circulating blood cells not only B cells and subclasses of T lymphocytes, i.e., CD4(+), CD8(+), and CD56 cells, but also monocytes have been found to contain NCL lipopigments, indicating that this precursor cell in the digesting macrophage system also has an impaired metabolic catabolism for lipopigments (3). Immunohistochemical studies indicate that microglial reaction in NCL brain is limited to resident microglia without contribution by circulating monocytes (4). The granular osmiophilic deposit (GROD) type of NCL has now been established not only in infantile, but also in late-infantile, juvenile, and protracted-juvenile NCL (5). A European Tissue Registry established within the framework of a European Concerted Action on Neuronal Ceroid-Lipofuscinosis may form the basis for additional collaborative studies on NCL, including both biopsy and autopsy tissues.
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PMID:Progress in neuropathology of the neuronal ceroid lipofuscinoses. 1019 Nov 30

It is proposed that ceroid lipofuscinosis in Southhampshire sheep (OCLSouthhampshire) be also known as OCL6 as it is syntenic with CLN6 of humans. Histopathological studies show a severe and progressive neurodegeneration of the cerebral cortex which sometimes appears to have a laminar pattern and which is accompanied by a severe midcortical astrocytosis. Other studies have shown that fibroblasts maintained in tissue culture have abnormal regulation of ATP synthase. If this was reflected in neurons, then selective neuron death is likely to be the result of energy-linked excitotoxicity of neurons receiving abundant glutamate input. Increased sensitivity of the NMDA receptor due to inefficient repolarization of the neuron membrane would allow increased cellular uptake of calcium, increased formation of free radicals, and neuron death. The general hypothesis, as developed for other chronic neurodegenerative diseases, is partly based on application of various drugs that block or mediate parts of the pathway involved. The same approach could be used to help test the hypothesis in OCL6 lambs and if successful some of the drugs might have therapeutic potential. As patterns of neurodegeneration are similar in various other forms of ceroid lipofuscinosis accumulating subunit c of mitochondrial ATP synthase, the model may have more general application than merely to CLN6.
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PMID:Ovine ceroid lipofuscinosis (OCL6): postulated mechanism of neurodegeneration. 1019 Nov 32

The specific accumulation of the hydrophobic protein, subunit c of ATP synthase, in lysosomes from the cells of patients with the late infantile form of neuronal ceroid lipofuscinosis (LINCL) is caused by lysosomal proteolytic dysfunction. The defective gene in LINCL (CLN2 gene) has been identified recently. To elucidate the mechanism of lysosomal storage of subunit c, antibodies against the human CLN2 gene product (Cln2p) were prepared. Immunoblot analysis indicated that Cln2p is a 46-kDa protein in normal control skin fibroblasts and carrier heterozygote cells, whereas it was absent in cells from four patients with LINCL. RT-PCR analysis indicated the presence of mRNA for CLN2 in cells from the four different patients tested, suggesting a low efficiency of translation of mRNA or the production of the unstable translation products in these patient cells. Pulse-chase analysis showed that Cln2p was synthesized as a 67-kDa precursor and processed to a 46-kDa mature protein (t(1/2) = 1 h). Subcellular fractionation analysis indicated that Cln2p is localized with cathepsin B in the high-density lysosomal fractions. Confocal immunomicroscopic analysis also revealed that Cln2p is colocalized with a lysosomal soluble marker, cathepsin D. The immunodepletion of Cln2p from normal fibroblast extracts caused a loss in the degradative capacity of subunit c, but not the beta subunit of ATP synthase, suggesting that the absence of Cln2p provokes the lysosomal accumulation of subunit c.
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PMID:A lysosomal proteinase, the late infantile neuronal ceroid lipofuscinosis gene (CLN2) product, is essential for degradation of a hydrophobic protein, the subunit c of ATP synthase. 1034 69

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

Kufs' disease is the adult form of a group of disorders referred to as neuronal ceroid-lipofuscinosis or Batten's disease. We report here the clinical and anatomopathological features of two young brothers presenting with a progressive myoclonic epilepsy corresponding to type A of the disease according to Berkovic. The first clinical manifestations occurred before 20 years of age. Diagnosis was made in the older brother at autopsy and in the younger brother from a rectal biopsy. In addition to characteristic electron microscopic findings, enlarged neurons showed strong immunoreactivity against subunit c of mitochondrial ATP synthase which has been reported previously in only a few adult cases of neuronal ceroid-lipofuscinosis. An extensive review of the published cases underlines the rarity of this condition, particularly when onset is early.
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PMID:Familial Kufs' disease presenting as a progressive myoclonic epilepsy. 1092 74

Cathepsin D-deficient (CD-/-) mice have been shown to manifest seizures and become blind near the terminal stage [approximately postnatal day (P) 26]. We therefore examined the morphological, immunocytochemical, and biochemical features of CNS tissues of these mice. By electron microscopy, autophagosome/autolysosome-like bodies containing part of the cytoplasm, granular osmiophilic deposits, and fingerprint profiles were demonstrated in the neuronal perikarya of CD-/- mouse brains after P20. Autophagosomes and granular osmiophilic deposits were detected in neurons at P0 but were few in number, whereas they increased in the neuronal perikarya within days after birth. Some large-sized neurons having autophagosome/autolysosome-like bodies in the perikarya appeared in the CNS tissues, especially in the thalamic region and the cerebral cortex, at P17. These lysosomal bodies occupied the perikarya of almost all neurons in CD-/- mouse brains obtained from P23 until the terminal stage. Because these neurons exhibited autofluorescence, it was considered that ceroid lipofuscin may accumulate in lysosomal structures of CD-/- neurons. Subunit c of mitochondrial ATP synthase was found to accumulate in the lysosomes of neurons, although the activity of tripeptidyl peptidase-I significantly increased in the brain. Moreover, neurons near the terminal stage were often shrunken and possessed irregular nuclei through which small dense chromatin masses were scattered. These results suggest that the CNS neurons in CD-/- mice show a new form of lysosomal accumulation disease with a phenotype resembling neuronal ceroid lipofuscinosis.
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PMID:Cathepsin D deficiency induces lysosomal storage with ceroid lipofuscin in mouse CNS neurons. 1099 34


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