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1.
BACKGROUND: A closed breeding colony of Shiba dogs with GM1-gangliosidosis is maintained at Hokkaido University (Sapporo, Japan). Neonatal genotyping is essential to control the breeding colony genetically as an animal model for the human disease. OBJECTIVES: The purpose of the present study was to determine the utility of amnion and placenta in the neonatal screening or diagnosis for canine GM1-gangliosidosis. METHODS: Twenty neonatal Shiba dogs of a pedigree with GM1- gangliosidosis were differentiated into 3 genotypes--normal, heterozygous, and affected dogs--by using a previously reported DNA mutation assay. Acid beta-galactosidase activity was measured in amnion and placenta and compared among the 3 genotypes. RESULTS: The level of beta-galactosidase activity in the amnion of affected dogs was negligible and <2% of the mean activity in normal dogs; there was no significant difference among the 3 genotypes. In placenta, beta-galactosidase activity was significantly different among all the genotypes; however, there was wide overlap in enzyme activity between normal and heterozygous dogs. The level of activity in affected dogs was relatively high and >10% of the mean activity in normal dogs. The DNA mutation assay gave correct information about genotype with genomic DNA extracted from amnion but ambiguous information with DNA from placenta. CONCLUSIONS: Amnion and placenta were not useful as enzyme sources in neonatal screening in canine GM1-gangliosidosis because of the risk of misdiagnosis. DNA from amnion is applicable as a template for genotyping, whereas placenta should not be used because canine placenta contains maternal cells.  相似文献   

2.
This report describes a rapid and simple method for mutation screening of G(M1) gangliosidosis in Shiba dogs by direct amplification of DNA from canine whole-blood specimens using a novel polymerase chain reaction (PCR) reagent cocktail, which can eliminate the DNA extraction process and amplify the genomic DNA directly from human or murine whole blood. The strategy of this mutation screening is based on the identification of a nucleotide deletion by restriction enzyme analysis, coupled with the direct PCR amplification. The target sequence of the canine beta-galactosidase gene could be amplified directly from various forms of canine whole-blood specimens, including anticoagulated blood, blood stored frozen for 1 year, dried blood held in filter paper for 1 year at room temperature, and dry powder of blood stripped from Giemsa-stained blood films, which had been prepared 10 years earlier, resulting in the determination of genotypes in all the specimens. This method simplified the molecular diagnosis and carrier screening of G(M1) gangliosidosis in Shiba dogs, making it simple to examine specimens from the large, widely distributed population of these dogs.  相似文献   

3.
GM1- and GM2-gangliosidoses are lethal lysosomal diseases that are caused by a defect of acid hydrolases, resulting in the intralysosomal accumulation of the specific physiological substrates, GM1- and GM2-gangliosides, respectively. In the present study a method for the diagnosis of canine GM1-gangliosidosis was established using canine cerebrospinal fluid (CSF). The concentration of GM1-ganglioside in CSF was determined by thin-layer chromatography-enzyme immunostaining using biotin-conjugated cholera toxin B, which specifically binds with GM1-ganglioside. The concentration of CSF GM1-ganglioside was increased in Shiba dogs with GM1-gangliosidosis, and the increased level was approximately proportional to the age of the dogs. The concentration was high in the affected dog even at 5 months of age, when Shiba dogs with GM1-gangliosidosis first manifest neurologic signs. In addition, the concentration of CSF GM1-ganglioside in a dog with the GM2-gangliosidosis 0 variant (Sandhoff disease) was also 7 times the normal level. From these results it was concluded that this laboratory technique enables a definitive and early diagnosis of canine GM1-gangliosidosis even if tissues and organs cannot be obtained. However, because GM1-ganglioside can also be elevated in cases of GM2-gangliosidosis, it is necessary to assay for specific enzyme deficiencies to definitively separate GM1- from GM2-gangliosidosis.  相似文献   

4.
BACKGROUND: Inborn errors of metabolism impose a significant genetic burden on purebred dogs and cats. The glycogen storage diseases are a category of such disorders that are typed by enzyme analysis, but deoxyribonucleic acid (DNA) based carrier tests are needed for definitive, noninvasive diagnosis and to prevent at-risk matings. HYPOTHESIS: Glycogen storage disease type IIIa (GSD IIIa) is caused by a mutation of the glycogen debranching enzyme gene (AGL) in Curly-Coated Retrievers (CCR). ANIMALS: Two CCR exhibiting episodic exercise intolerance, collapse, and lethargy, and related dogs were studied. METHODS: Structure and amount of glycogen isolated from tissue biopsy specimens was determined by enzymatic digestion, and activities of enzymes of glycogen metabolism were measured. The 33 AGL coding exons and flanking splice sites of an affected dog were amplified by polymerase chain reaction and sequenced. RESULTS: Debranching enzyme activity was undetectable in liver and skeletal muscle of affected dogs, and accumulated glycogen had absent or short outer chains of alpha1, 4-linked glucose. A single adenosine (A) deletion in AGL exon 32 of affected dog genomic DNA predicted a frame-shift and truncation of the protein product by 126 amino acid residues. The mutation was homozygous in affected dogs and heterozygous in both parents. In addition, the deletion mutation was heterozygous in 16 or not detected at all in 31 related but clinically normal CCR. CONCLUSIONS AND CLINICAL IMPORTANCE: GSD IIIa in CCR is an autosomal recessive trait caused by mutation of AGL. A DNA sequence-based carrier test was developed, and carriers were identified in the United States, New Zealand, Australia, and Finland.  相似文献   

5.
The present study was conducted to determine the clinical and clinico-pathologic characteristics of Shiba dogs with GM1 gangliosidosis, which is due to an autosomal recessively inherited deficiency of lysosomal acid beta-galactosidase activity. Clinical and clinico-pathological features were investigated in 10 homozygous Shiba dogs with GM1 gangliosidosis. The age at onset was 5 to 6 months and the dogs manifested progressive neurologic signs including loss of balance, intermittent lameness, ataxia, dysmetria and intention tremor of the head. The dogs were unable to stand by 10 months of age due to a progression of ataxia and spasticity in all limbs. Corneal clouding, a visual defect, generalized muscle rigospasticity, emotional disorder and a tendency to be lethargic were observed at 9 to 12 months. The dogs became lethargic from 13 months of age. The survival period seemed to be 14 to 15 months. As a clinico-pathologic feature, lymphocytes with abnormally large vacuoles were observed in peripheral blood (30 to 50% of total lymphocytes) through the lifetime of the dogs. The clinical and clinico-pathologic characteristics of this animal model are useful for not only the development and testing of potential methods of therapy, but also the diagnosis of affected homozygous Shiba dogs in veterinary clinics.  相似文献   

6.
A subpopulation of dogs of the Collie and Australian Shepherd breeds show increased sensitivity to central nervous actions of ivermectin, doramectin, loperamide, and probably several other drugs. The molecular background for this greater sensitivity is a nonsense mutation in the MDR1 efflux pump, which is part of the functional blood-brain barrier and normally limits drug penetration into the brain. This report describes a rapid PCR-based method for detection of this nt230(del4) MDR1 mutation using a small amount of genomic DNA from blood cells. Thereby, homozygous intact, homozygous mutated, and heterozygous mutated MDR1 genotypes can be clearly differentiated by high resolution polyacrylamide gel electrophoresis. Using this diagnostic test two Collies and one Australian Shepherd were screened for the nt230(del4) MDR1 mutation. The Collies had no history of altered drug sensitivity and showed homozygous intact and heterozygous mutated MDR1 alleles, respectively. However, the Australian Shepherd developed clear signs of neurotoxicity including ataxia, crawling, acoustic and tactile hyperexcitability, and miosis after a single dose of moxidectin (400 microg/kg). For this dog two mutated MDR1 alleles were detected. This report describes for the first time moxidectin neurotoxicosis in a dog with a homozygous MDR1 mutation.  相似文献   

7.
Molecular screening of GM1 gangliosidosis in Shiba dogs was carried out in northern Japan using blood smear specimens after prolonged storage. Of 125 specimens obtained from 3 veterinary teaching hospitals for this screening, 68 specimens (54%) were adequate for direct amplification in a polymerase chain reaction (PCR)-based DNA test, and the percentage of adequacy was different at each hospital (34%, 73%, and 100%), suggesting that the amount of blood on the smear and the storage condition of specimens may affect adequacy. Of the 68 dogs examined, 2 dogs (2.9%) were heterozygous carriers for this disease and the other dogs were all genotypically normal. The results suggest blood smear specimens can be useful for PCR testing after prolonged storage provided specimens contain a generous amount of blood and have been adequately stored. The study also suggests that GM1 gangliosidosis may be widely prevalent in the Shiba dog population in northern Japan.  相似文献   

8.
GM2 gangliosidosis variant 0 (human Sandhoff disease) is a lysosomal storage disease caused by simultaneous deficiencies of acid beta-hexosaminidase (Hex) A and Hex B due to an abnormality of beta-subunit, a common component in these enzyme molecules, which is coded by the HEXB gene. In the present study, a retrospective diagnosis was performed in 2 previous suspected cases of feline Sandhoff-like disease using a DNA test to detect the causative mutation identified previously in 4 cats in 2 other families of Japanese domestic cats. Enzymic analysis was also performed using stored leukocytes and plasma collected from the subject families in order to investigate the usefulness of enzymic diagnosis and genotyping of carriers. The DNA test suggested that the 2 cases were homozygous recessive for the mutation. Consequently, 6 cats homozygous for the same mutation have been found in 4 separate locations of Japan, suggesting that this mutant allele may be spread widely in the Japanese domestic cat populations. In enzymic analysis, Hex A and Hex B activities in leukocytes and plasma measured using 4-methylumbelliferyl N-acetyl-beta-D-glucosaminide as a substrate were negligible in affected cats, compared with those in normal and carrier cats. However, there was a wide overlap in enzyme activity between normal and carrier cats. Therefore, it was concluded that enzymic analysis is useful for diagnosis of affected cats, but is not acceptable for genotyping of carriers.  相似文献   

9.
OBJECTIVE: To define the disease-causing mutation in West Highland White Terriers (WHWT) with erythrocyte pyruvate kinase (R-PK) deficiency and to design a genetic test capable of recognizing affected (homozygous) and carrier (heterozygous) dogs. ANIMALS: 3 anemic WHWT littermates and 1 unaffected littermate; 16 dogs from the same kennel, including 4 unrelated, phenotypically normal dogs (control dogs), and 12 for which PK activity was not known; 2 PK-deficient Basenjis; 2 PK-deficient Beagles; 4 unaffected English Springer Spaniels; and 1 mixed-breed dog. PROCEDURES: cDNA was cloned and sequenced, and cDNA sequences were compared with the published sequence for canine R-PK cDNA to identify the putative disease-causing mutation. Genomic DNA spanning the affected region was cloned and sequenced to verify the mutation. Subsequently, polymerase chain reaction primers were designed to amplify the section of the gene containing the mutation from DNA in blood or buccal swab samples. Gel electrophoresis allowed assignment of genotypes on the basis of allele separation. RESULTS: 4 single base polymorphisms attributable to sequencing errors in the published sequence were identified, along with a 6 base pair (bp) insertion in exon 10 that was recognized as a putative disease-causing mutation. An identical insertion was found in genomic DNA. Amplification of genomic DNA yielded a 117 bp product for genotypically normal dogs and a 123 bp product for WHWT homozygous for PK deficiency. Carriers had 1 copy of each allele and variable heteroduplex structures. CONCLUSIONS AND CLINICAL RELEVANCE: A 6 bp insertion in the C domain of R-PK was identified in WHWT with PK deficiency. Affected and carrier dogs could be distinguished with a genetic test.  相似文献   

10.
P-glycoprotein (P-gp), encoded by the multiple drug resistance gene ABCB1 (also known as MDR1 ), is an integral component of the blood brain barrier crucial in limiting drug uptake into the central nervous system. Altered expression or function of P-gp, as seen in dogs of the collie lineage homozygous for the nt228(del4) mutation of the ABCB1 gene ( ABCB1-1Δ ), can result in potentially fatal neurotoxicosis, especially following administration of systemic macrocyclic lactones (SML). Occasionally, dogs from unrelated breeds develop subchronic signs of neurotoxicity when receiving SML to treat generalized demodicosis. It is possible that these dogs are heterozygous carriers of the ABCB1-1Δ mutation, resulting in decreased P-gp activity and central neurotoxicosis. Cheek swabs were collected from 28 dogs with generalized demodicosis that had shown subchronic signs of neurotoxicity following daily oral administration of ivermectin or other SML. Ten of these animals received concurrent systemic treatment with other confirmed or putative P-gp substrates. After DNA extraction, the relevant portion of the ABCB1 gene was amplified by polymerase chain reaction, and sequenced. Twenty-seven dogs were homozygous normal while one dog was heterozygous for the ABCB1-1Δ mutation. Therefore, with the exception of one dog, the observed neurotoxicity could not be attributed to the ABCB1-1Δ mutation. Possible explanations for the adverse reactions observed include pharmacological interactions (administration of SML with other P-gp substrates or inhibitors), excessively high doses, polymorphisms in P-gp expression, uncharacterized mutations in the ABCB1 gene or in another gene, or phenomena unrelated to the SML–P-gp interaction.  相似文献   

11.
In the present study, laboratory techniques were used to diagnose canine GM2-gangliosidosis using blood and cerebrospinal fluid (CSF) that can be collected noninvasively from living individuals. Lysosomal acid beta-hexosaminidase (Hex) was measured spectrofluorometrically using 4-methylumbelliferyl N-acetyl-beta-D-glucosaminide and 4-methylumbelliferyl 7-(6-sulfo-2-acetamido-2-deoxy-beta-D-glucopyranoside) as substrates. Main isoenzymes A and B of Hex in leukocytes were also analyzed using cellulose acetate membrane electrophoresis. GM2-ganglioside in CSF was detected and determined quantitatively by using thin-layer chromatography/enzyme-immunostaining method with anti-GM2-ganglioside antibody. In normal dogs, Hex activities could be determined in leukocytes, serum, and CSF and the total activities were markedly reduced in all the enzyme sources in a dog with Sandhoff disease. Electrophoresis of a leukocyte lysate from a normal dog showed that the Hex A and Hex B were not separated distinctively with formation of a broad band, whereas there were no bands in electrophoresis of a lysate from a dog with Sandhoff disease, showing a deficiency in the total enzyme activity. GM2-ganglioside could be detected and determined quantitatively in as little as 100 microl of canine CSE GM2-ganglioside in CSF in a dog with Sandhoff disease increased to 46 times the normal level. In conclusion, the methods in the present study are useful for diagnosis of canine GM2-gangliosidosis. These techniques enable definitive and early diagnosis of canine GM2-gangliosidosis even if tissues and organs cannot be obtained.  相似文献   

12.
Trapped neutrophil syndrome (TNS) is an autosomal recessive inherited neutropenia known in Border Collies since the 1990's. Recently, the causative mutation has been identified in the canine VPS13B gene and a DNA-based diagnosis has now become available. The present paper describes clinical and clinico-pathologic findings in a Border Collie with TNS that was molecularly diagnosed for the first time in Japan. In a 10-week-old male Border Collie with microgenesis and symptoms related to recurrent infections, a hematological examination revealed severe leukopenia due to neutropenia, suggesting the dog to be affected by inherited neutropenic immunodeficiency. Direct DNA sequencing demonstrated that the dog was homozygous for the causative mutation of TNS and both its parents were heterozygous carriers. In addition, a simple and rapid polymerase chain reaction-based length polymorphism analysis coupled with microchip electrophoresis was developed for the genotyping of TNS. This assay could discriminate clearly all genotypes, suggesting that it was suitable for both individual diagnosis and large-scale surveys for prevention.  相似文献   

13.
The control of recessively inherited inborn errors of metabolism may benefit from quantitative biochemical screening assays enabling the identification of heterozygous individuals. Based on the principle of partial enzyme deficiency in heterozygotes, an attempt was made to identify heterozygous animals in a Lapland dog family with canine glycogen storage disease type II (acid alpha-glucosidase deficiency). Acid alpha-glucosidase activity was determined in peripheral blood leucocyte extracts of 12 related Lapland dogs, two of which were obligate heterozygotes. The use of an antiserum against acid alpha-glucosidase was necessary to increase the specificity of the assay. Twice the obligate heterozygous enzyme level was assumed to indicate the homozygous normal level. Five dogs were designated as presumptive heterozygotes, and five as presumptive normal homozygotes. The results in two dogs were inconclusive. The information obtained in this preliminary investigation may be helpful in the control of the disease in the Lapland dog breed.  相似文献   

14.
Purpose To identify causative mutation(s) for congenital keratoconjunctivitis sicca and ichthyosiform dermatosis (CKCSID) in Cavalier King Charles spaniel (CKCS) dogs using a candidate gene approach. Methods DNA samples from 21 cases/parents were collected. Canine candidate genes (CCGs) for similar inherited human diseases were chosen. Twenty-eight candidate genes were identified by searching the Pubmed OMIM database (http://www.ncbi.nlm.nih.gov/omim). Canine orthologues of human candidate genes were identified using the Ensembl orthologue prediction facility (http://www.ensembl.org/index.html). Two microsatellites flanking each candidate gene were selected, and primers to amplify each microsatellite were designed using the Whitehead Institute primer design website (http://frodo.wi.mit.edu/primer3/). The microsatellites associated with all 28 CCGs were genotyped on a panel of 21 DNA samples from CKCS dogs (13 affected and eight carriers). Genotyping data was analyzed to identify markers homozygous in affected dogs and heterozygous in carriers (homozygosity mapping). Results None of the microsatellites associated with 25 of the CCGs displayed an association with CKCSID in the 21 DNA samples tested. Three CCGs associated microsatellites were monomorphic across all samples tested. Conclusions Twenty-five CCGs were excluded as cause of CKCSID. Three CCGs could not be excluded from involvement in the inheritance of CKCSID. Support Kennel Club Charitable Trust grant.  相似文献   

15.
Exercise-induced collapse (EIC) is an autosomal recessive disorder in Labrador retrievers. In this study, an allele-specific PCR was developed to detect the point mutation G767T in exon 6 of canine DNM1, previously shown to be responsible for canine EIC. Of 133 Labrador retrievers tested in Japan, 6 (4.5%) were homozygous (EIC) and 50 (37.6%) were heterozygous (carriers) for the G767T mutation.  相似文献   

16.
OBJECTIVE: To analyze surface antigen expression and functional responses of leukocytes from calves heterozygous and homozygous for bovine leukocyte adhesion deficiency (BLAD). ANIMALS: 8 clinically normal calves, 4 calves heterozygous for BLAD, and 4 calves homozygous for BLAD. PROCEDURE: Surface antigen expression was examined by flow cytometric analysis of leukocytes stained with monoclonal antibodies. Neutrophil function analyses included phagocytosis and killing of Candida albicans and measurement of respiratory burst activity using cytochrome c and dihydrorhodamine 123 assays. Differential leukocyte counts also were performed. RESULTS: Leukocytes from heterozygous calves were similar to those of clinically normal calves with respect to surface antigen expression, C albicans phagocytosis and killing, and respiratory burst activity. In contrast, neutrophils from calves homozygous for BLAD had significantly reduced phagocytic and yeast-killing capacity but had higher respiratory burst activity than cells from clinically normal or heterozygous calves. Homozygous calves also had extreme neutrophilia and significantly more immature neutrophils. CONCLUSIONS: The heterozygous BLAD genotype does not cause detectable functional differences in leukocytes, compared with those of clinically normal calves. In contrast, leukocytes from homozygous calves seem to upregulate alternative host defense capabilities (eg, respiratory burst activity) to partially compensate for the lack of typical adherence-dependent host defense functions.  相似文献   

17.
Consistent with a tentative diagnosis of neuronal ceroid lipofuscinosis (NCL), autofluorescent cytoplasmic storage bodies were found in neurons from the brains of 2 related Shiba Inu dogs with a young‐adult onset, progressive neurodegenerative disease. Unexpectedly, no potentially causal NCL‐related variants were identified in a whole‐genome sequence generated with DNA from 1 of the affected dogs. Instead, the whole‐genome sequence contained a homozygous 3 base pair (bp) deletion in a coding region of HEXB. The other affected dog also was homozygous for this 3‐bp deletion. Mutations in the human HEXB ortholog cause Sandhoff disease, a type of GM2 gangliosidosis. Thin‐layer chromatography confirmed that GM2 ganglioside had accumulated in an affected Shiba Inu brain. Enzymatic analysis confirmed that the GM2 gangliosidosis resulted from a deficiency in the HEXB encoded protein and not from a deficiency in products from HEXA or GM2A, which are known alternative causes of GM2 gangliosidosis. We conclude that the homozygous 3‐bp deletion in HEXB is the likely cause of the Shiba Inu neurodegenerative disease and that whole‐genome sequencing can lead to the early identification of potentially disease‐causing DNA variants thereby refocusing subsequent diagnostic analyses toward confirming or refuting candidate variant causality.  相似文献   

18.
To identify factors that control coat color in Akita-inu dogs, we sequenced all the exons of the melanocortin 1 receptor (MC1R), β-defensin103 (CBD103) and agouti signaling protein (ASIP) genes of dogs with four distinct coat colors, namely, brindle, sesame, red and white. Then we examined correlations among specific alleles and coat color. In the case of the MC1R gene, all white dogs were homozygous for a nonsense mutation, R306ter, while brindle, sesame, and red dogs had at least one R306 allele. In the case of the CBD103 gene, all brindle dogs were heterozygous for the G23del mutation (deletion of codon 23, encoding glycine), while all sesame and red dogs were homozygous for G23. In the case of the ASIP gene, all dogs, regardless of coat color, had at least one S82 H83 allele. A missense mutation in the ASIP gene, P87L, was identified for the first time in some Akita-inu dogs but was not associated with any specific coloration. Our results indicate that the 2 key mutations, R306ter in the MC1R gene and G23del in the CBD103 gene, are associated with the phenotypic discriminations among brindle, red/sesame, and white coats, while no mutation that might potentially be associated with the discrimination of a sesame coat from a red coat is present in the coding sequences of these three genes.  相似文献   

19.
Von Willebrand disease type III is widespread in Dutch Kooiker dogs. To eradicate von Willebrand disease from the breed, affected dogs and nonsymptomatic carriers must be excluded from breeding. Previous efforts to detect carriers in Kooiker dogs by a von Willebrand factor antigen assay were not satisfactory because of considerable overlap of plasma concentrations in normal dogs and carriers. The aim of this study was to develop and apply a DNA test for the detection of von Willebrand disease carriers in the Kooiker breed. Two mutations in the von Willebrand factor gene in affected Kooiker dogs have been described previously, a splice site mutation at the border of intron 16 and exon 16 and a missense mutation in exon 3. We have developed polymerase chain reaction tests for both mutations in genomic DNA. The missense mutation most likely is a neutral variant and appears to be a polymorphism present in many breeds. The allele-specific oligonucleotide test for the splice site mutation was applied in the selection of animals cleared to breed by the Dutch breeding club. In a few years, the mutation has been eliminated from the breeding stock without apparent increase of inbreeding or preferential sire usage.  相似文献   

20.
The introduction of SNP (Single Nucleotide Polymorphism) chips allows for the rapid typing of multiple markers for many individuals at one time. Our lab routinely types dogs using a custom designed combined panel of SNPs for parentage verification and a number of genes for diagnostic tests using an OpenArray platform manufactured by BioTrove (Woburn, MA, USA). By utilizing the same SNP panel across a wide array of canine breeds it is possible to detect trait-associated SNPs in breeds not thought to carry those traits. We genotyped 245 Labrador Retrievers on the canine SNP chip and found 13 animals heterozygous for the M264V mutation associated with autosomal dominant mask trait, and one animal homozygous for this trait. The color genotypes for these animals were further examined. In standard colored Labradors (black, chocolate, and yellow), the mask phenotype would never be distinguishable. As illustrated by this example, we feel this SNP panel is a valuable method for discovering traits not known to exist in a breed.  相似文献   

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