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Query: UMLS:C0085584 (
encephalopathy
)
18,178
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two forms of neuronal ceroid lipofuscinosis (CLN) are enriched in the Finnish population: the infantile form (CLN1), which is the most common progressive
encephalopathy
of small children, and the variant late infantile form (variant
CLN2
), which is a rare, atypical form of neuronal ceroid lipofuscinosis. We recently established the linkage of the infantile form (CLN1) to the short arm of chromosome 1 close to the anchor marker D1S7. Here we demonstrate a linkage disequilibrium of CLN1 chromosomes using the two closest markers, DIS62 and L-MYC at the short arm of chromosome 1 (P less than 0.0025). The results of linkage analyses in Finnish variant
CLN2
families using the markers linked to CLN1 revealed an exclusion; i.e., this form of CLN is caused by a locus different from that of CLN1. This finding was confirmed with the result of the M-test for heterogeneity. The genealogical data collected further support the molecular genetic findings and provide evidence that the mutation causing CLN1 in Finland is very old, whereas the mutation causing the variant
CLN2
could be a result of a younger, i.e., more recent founder effect.
...
PMID:Infantile neuronal ceroid lipofuscinosis (CLN1): linkage disequilibrium in the Finnish population and evidence that variant late infantile form (variant CLN2) represents a nonallelic locus. 207 Nov 42
The neuronal ceroid lipofuscinoses (NCL; Batten disease) are a collection of autosomal recessive disorders characterized by the accumulation of autofluorescent lipopigments in the neurons and other cell types. Clinically, these disorders are characterized by progressive
encephalopathy
, loss of vision, and seizures. CLN3, the gene responsible for juvenile NCL, has been mapped to a 15-cM region flanked by the marker loci D16S148 and D16S150 on human chromosome 16.
CLN2
, the gene causing the late-infantile form of NCL (LNCL), is not yet mapped. We have used highly informative dinucleotide repeat markers mapping between D16S148 and D16S150 to refine the localization of CLN3 and to test for linkage to
CLN2
. We find significant linkage disequilibrium between CLN3 and the dinucleotide repeat marker loci D16S288 (chi 2(7) = 46.5, P < .005), D16S298 (chi 2(6) = 36.6, P < .005), and D16S299 (chi 2(7) = 73.8, P < .005), and also a novel RFLP marker at the D16S272 locus (chi 2(1) = 5.7, P = .02). These markers all map to 16p12.1. The D16S298/D16S299 haplotype "5/4" is highly overrepresented, accounting for 54% of CLN3 chromosomes as compared with 8% of control chromosomes (chi 2 = 117, df = 1, P < .001). Examination of the haplotypes suggests that the CLN3 locus can be narrowed to the region immediately surrounding these markers in 16p12.1. Analysis of D16S299 in our LNCL pedigrees supports our previous finding that CLN3 and
CLN2
are different genetic loci. This study also indicates that dinucleotide repeat markers play a valuable role in disequilibrium studies.
...
PMID:Linkage disequilibrium between the juvenile neuronal ceroid lipofuscinosis gene and marker loci on chromosome 16p 12.1. 827 74
Clinical features and results of the blood DNA analysis are reported of a child affected with a distinct phenotype of the late infantile form of neuronal ceroid-lipofuscinosis (LINCL). He was affected by microcephaly and hypotonia since the fourth month of life; acquisition of motor and language abilities was severely impaired, and a disorder of communication with stereotyped movements followed. By age four, he developed signs and symptoms of progressive myoclonic
encephalopathy
along with motor and cognitive deterioration. Extrapyramidal signs were associated with neuroradiological findings of marked atrophy of the caudate nucleus. Specific curvilinear bodies were observed in blood lymphocytes and skin biopsy. Homozygous, nonsense mutation in the
CLN2
gene was found giving origin to an Arg208stop, which produces an early transcription termination with loss of translation of about 50% of the gene product. Any relationship between the severe clinical features of our patient and the homozygous mutation here reported must be investigated on a larger number of LINCL patients bearing the same mutation.
...
PMID:A CLN2 gene nonsense mutation is associated with severe caudate atrophy and dystonia in LINCL. 1107 Nov 45
Electron microscopic, fluorescence microscopic, and immunohistochemical studies earlier performed on archival cerebral tissue from Max Bielchowsky's original three patients revealed curvilinear bodies rich in subunit C of mitochondrial ATP synthase (SCMAS). Recent progress in the elucidation of
CLN2
, i.e. identification of the defective lysosomal enzyme
tripeptidyl-peptidase I
(
TPP-I
) and mutations in the
CLN2
gene have further corroborated earlier data. Immunohistochemically the absence of the
TPP-I
protein could be confirmed in the archival tissues using pathological controls. Unlike biochemistry, immunohistochemistry enables examination of these archival tissues elucidating the causative defect. Complementary molecular studies identified mutations in the
CLN2
gene in the archival tissues and thereby convincingly demonstrated that these three children truly had classic late infantile neuronal ceroid lipofuscinosis (LINCL), now called
CLN2
. This archival study documents the possibilities to revalidate disease-specific original nosologic reports. Chloroquine is toxic to lysosomal enzymes and results in lysosomal storage. The material is autofluorescent and gives the ultrastructural pattern of curvilinear profiles, thus resembling classic late infantile NCL, representing a good experimental model. In humans chloroquine therapy may cause a myopathy (and retinopathy) and, as recently suggested, an
encephalopathy
marked by lysosomal accretion in several cell types including neurons. Immunohistochemically, SCMAS also accumulates, further strengthening morphologic similarity between LINCL and human chloroquine intoxication.
...
PMID:Morphological studies on CLN2. 1158 98
