Population structure in contemporary Sweden--a Y-chromosomal and mitochondrial DNA analysis.

A population sample representing the current Swedish population was analysed for maternally and paternally inherited markers with the aim of characterizing genetic variation and population structure. The sample set of 820 females and 883 males were extracted and amplified from Guthrie cards of all the children born in Sweden during one week in 2003. 14 Y-chromosomal and 34 mitochondrial DNA SNPs were genotyped. The haplogroup frequencies of the counties closest to Finland, Norway, Denmark and the Saami region in the north exhibited similarities to the neighbouring populations, resulting from the formation of the Swedish nation during the past millennium. Moreover, the recent immigration waves of the 20th century are visible in haplogroup frequencies, and have led to increased diversity and divergence of the major cities. Signs of genetic drift can be detected in several counties in northern as well as in southern Sweden. With the exception of the most drifted subpopulations, the population structure in Sweden appears mostly clinal. In conclusion, our study yielded valuable information of the structure of the Swedish population, and demonstrated the usefulness of biobanks as a source of population genetic research. Our sampling strategy, nonselective on the current population rather than stratified according to ancestry, is informative for capturing the contemporary variation in the increasingly panmictic populations of the world.

Migration waves to the Baltic Sea region.

In this study, the population history of the Baltic Sea region, known to be affected by a variety of migrations and genetic barriers, was analyzed using both mitochondrial DNA and Y-chromosomal data. Over 1200 samples from Finland, Sweden, Karelia, Estonia, Setoland, Latvia and Lithuania were genotyped for 18 Y-chromosomal biallelic polymorphisms and 9 STRs, in addition to analyzing 17 coding region polymorphisms and the HVS1 region from the mtDNA. It was shown that the populations surrounding the Baltic Sea are genetically similar, which suggests that it has been an important route not only for cultural transmission but also for population migration. However, many of the migrations affecting the area from Central Europe, the Volga-Ural region and from Slavic populations have had a quantitatively different impact on the populations, and, furthermore, the effects of genetic drift have increased the differences between populations especially in the north. The possible explanations for the high frequencies of several haplogroups with an origin in the Iberian refugia (H1, U5b, I1a) are also discussed.

Subpopulation difference scanning: a strategy for exclusion mapping of susceptibility genes.

BACKGROUND: Association mapping is a common strategy for finding disease-related genes in complex disorders. Different association study designs exist, such as case-control studies or admixture mapping. METHODS: We propose a strategy, subpopulation difference scanning (SDS), to exclude large fractions of the genome as locations of genes for complex disorders. This strategy is applicable to genes explaining disease incidence differences within founder populations, for example, in cardiovascular diseases in Finland. RESULTS: The strategy consists of genotyping a set of markers from unrelated individuals sampled from subpopulations with differing disease incidence but otherwise as similar as possible. When comparing allele or haplotype frequencies between the subpopulations, the genomic areas with little difference can be excluded as possible locations for genes causing the difference in incidence, and other areas therefore targeted with case-control studies. As tests of this strategy, we use real and simulated data to show that under realistic assumptions of population history and disease risk parameters, the strategy saves efforts of sampling and genotyping and most efficiently detects genes of low risk--that is, those most difficult to find with other strategies. CONCLUSION: In contrast to admixture mapping that uses the mixing of two different populations, the SDS strategy takes advantage of drift within highly related subpopulations.

The occurrence of dominant spinocerebellar ataxias among 251 Finnish ataxia patients and the role of predisposing large normal alleles in a genetically isolated population.

OBJECTIVES: Frequency and distribution of dominant ataxias caused by dynamic mutations may vary in different populations, which has been explained on the basis of relative frequency of predisposing normal alleles. The aim of the study was to evaluate the occurrence of spinocerebellar ataxias (SCAs) and dentatorubral-pallidoluysian atrophy (DRPLA) in Finland, and to investigate the role of predisposing normal alleles in a genetically homogenous population. MATERIAL AND METHODS: Mutation analyses for SCA1, 2, 3, 6, 7, 8, 10, 12, 17, and DRPLA and frataxin genes were performed for 251 unrelated Finnish patients who presented with progressive ataxia disorder. RESULTS: Expansions of SCA1, SCA2, SCA6, SCA7, SCA8, and SCA17 genes were detected in 2, 1, 1, 7, 22, and 1 patients, respectively. Altogether, 39 and 7% of dominant and sporadic SCA patients, respectively, harboured expansions at some of the investigated loci. Normal variation, collected from 477 to 502 chromosomes at each disease loci, revealed that Finns were different from the Japanese but largely similar to other Caucasians. CONCLUSIONS: Lack of SCA3 and excess of SCA8 are characteristic to the Finnish population. Homozygosity for the SCA8 expansion increases penetrance. Frequencies of large normal alleles at the SCA loci predict poorly prevalence of the respective diseases in Finland. Prioritization in DNA testing, based on ethnic origin and geographical location, is recommendable in Finland, and analogous approach may be applied to other countries as well.

Tandem repeats and length variation in the mitochondrial DNA control region of Epirrita autumnata (Lepidoptera: Geometridae).

The organization of the mitochondrial DNA (mtDNA) control region (CR) of the autumnal moth, Epirrita autumnata, is described. The E. autumnata CR presents a distinct type of lepidopteran CR with domains of non-repetitive and repetitive sequences. The CRs show considerable length variation owing to a variable number of short approximately 29-bp sequence blocks that are repeated between 6 and 14 times in tandem. The organization of such a tandem array is unique among the insect CRs examined so far. Furthermore, the E. autumnata CR, which may reach 1075 bp in length, is considerably longer than previously reported lepidopteran CRs, which reach 311-499 bp in length. Like other lepidopteran CRs, the E. autumnata CR contains two long homopolymer runs that may be involved in mtDNA replication and (or) transcription.

Phenotype of a homozygous CADASIL patient in comparison to 9 age-matched heterozygous patients with the same R133C Notch3 mutation.

BACKGROUND AND PURPOSE: CADASIL is an autosomal dominant arteriopathy, characterized by multiple brain infarcts, cognitive decline, and finally dementia, which is caused by mutations in Notch3 gene encoding a Notch3 receptor protein. We describe the clinical, neuropsychological, imaging, genetic, and skin biopsy findings in a CADASIL patient homozygous for the C475T mutation resulting in R133C amino acid substitution, in comparison to 9 age-matched heterozygous patients with the same mutation. METHODS: The patients were examined clinically and neuropsychologically and with MRI and positron emission tomography for assessment of cerebral blood flow. The gene defect was analyzed by sequencing the products of polymerase chain reaction of exons 3 and 4 of the Notch3 gene. Dermal arteries were analyzed electron microscopically. RESULTS: The homozygous patient had his first-ever stroke at age 28 years. This is markedly earlier than the average, but the patient's heterozygous son had his first transient ischemic attack-like episode at the same age and another heterozygous patient had his first-ever stroke when only 2 years older. He was neuropsychologically more severely deteriorated than all but 1 of the heterozygous patients. These 2 patients had the most severe (confluent grade D) white matter MRI changes. Positron emission tomography showed markedly reduced cerebral blood flow. Skin biopsy revealed profuse deposits of granular osmiophilic material. The progression of disease in the homozygous case was, however, slower than in the most severely affected heterozygous patient. CONCLUSIONS: Our homozygous patient's phenotype is within the clinical spectrum of CADASIL, although at its severe end. Thus, CADASIL may follow the classic definition of a dominant disease, according to which the heterozygous and homozygous patients are clinically indistinguishable.

A signal, from human mtDNA, of postglacial recolonization in Europe.

Mitochondrial HVS-I sequences from 10,365 subjects belonging to 56 populations/geographical regions of western Eurasia and northern Africa were first surveyed for the presence of the T-->C transition at nucleotide position 16298, a mutation which has previously been shown to characterize haplogroup V mtDNAs. All mtDNAs with this mutation were then screened for a number of diagnostic RFLP sites, revealing two major subsets of mtDNAs. One is haplogroup V proper, and the other has been termed "pre*V," since it predates V phylogenetically. The rather uncommon pre*V tends to be scattered throughout Europe (and northwestern Africa), whereas V attains two peaks of frequency: one situated in southwestern Europe and one in the Saami of northern Scandinavia. Geographical distributions and ages support the scenario that pre*V originated in Europe before the Last Glacial Maximum (LGM), whereas the more recently derived haplogroup V arose in a southwestern European refugium soon after the LGM. The arrival of V in eastern/central Europe, however, occurred much later, possibly with (post-)Neolithic contacts. The distribution of haplogroup V mtDNAs in modern European populations would thus, at least in part, reflect the pattern of postglacial human recolonization from that refugium, affecting even the Saami. Overall, the present study shows that the dissection of mtDNA variation into small and well-defined evolutionary units is an essential step in the identification of spatial frequency patterns. Mass screening of a few markers identified using complete mtDNA sequences promises to be an efficient strategy for inferring features of human prehistory.

Multiple founder effects in spinal and bulbar muscular atrophy (SBMA, Kennedy disease) around the world.

SBMA (spinal and bulbar muscular atrophy), also called Kennedy disease, is an X-chromosomal recessive adult-onset neurodegenerative disorder caused by death of the spinal and bulbar motor neurones and dorsal root ganglia. Patients may also show signs of partial androgen insensitivity. SBMA is caused by a CAG repeat expansion in the first exon of the androgen receptor (AR) gene on the X-chromosome. Our previous study suggested that all the Nordic patients with SBMA originated from an ancient Nordic founder mutation, but the new intragenic SNP marker ARd12 revealed that the Danish patients derive their disease chromosome from another ancestor. In search of relationships between patients from different countries, we haplotyped altogether 123 SBMA families from different parts of the world for two intragenic markers and 16 microsatellites spanning 25 cM around the AR gene. The fact that different SBMA founder haplotypes were found in patients from around the world implies that the CAG repeat expansion mutation has not been a unique event. No expansion-prone haplotype could be detected. Trinucleotide diseases often show correlation between the repeat length and the severity and earlier onset of the disease. The longer the repeat, the more severe the symptoms are and the onset of the disease is earlier. A negative correlation between the CAG repeat length and the age of onset was found in the 95 SBMA patients with defined ages at onset.

Clinical and genetic findings in Finnish ataxia patients with the spinocerebellar ataxia 8 repeat expansion.

Spinocerebellar ataxia 8 (SCA8) is caused by a CTG repeat expansion in an untranslated region of a recently cloned gene on 13q21. The pathogenic role of this trinucleotide repeat was evaluated by examining 154 Finnish ataxia patients and 448 controls. Expansions ranging from 100 to 675 repeats were present in 9 (6%) unrelated patients and in 13 (3%) controls. There was a threefold excess of shorter expansions (<204 repeats) in the ataxia series, and the expansions tended to cluster in patients with a family history for the disease. Clinical and genetic data were subsequently collected from 15 patients. Common initial symptoms included gait instability, dysarthria, and tremor. A marked cerebellar atrophy in magnetic resonance imaging or computed tomography was found in all patients. Pyramidal affection was often seen, and various kinds of cognitive impairment were evident in 40% of patients. Disease progression was slow, and fluctuation of symptoms was commonly observed. A maternal penetrance bias was not seen, nor was there any clear-cut negative correlation between age of onset and repeat number. Meiotic but not mitotic instability of the repeat expansion was evident. Haplotype analysis suggests multiple origins for the Finnish spinocerebellar ataxia 8 repeat expansions.

Founder effect in spinal and bulbar muscular atrophy (SBMA) in Scandinavia.

We haplotyped 13 Finnish, 10 Swedish, 12 Danish and 2 Norwegian SBMA (spinal and bulbar muscular atrophy, Kennedy disease) families with a total of 45 patients and 7 carriers for 17 microsatellite markers spanning a 25.2 cM region around the androgen receptor gene on chromosome Xq11-q12 in search of a genetic founder effect. In addition, the haplotypes of 50 Finnish, 20 Danish and 22 Swedish control males were examined. All the Scandinavian SBMA families shared the same 18 repeat allele for the intragenic GGC repeat, which was present in only 24% of the controls. Linkage disequilibrium was also seen for the closest microsatellite markers. In addition, extended haplotypes of the Finnish, Swedish and Danish SBMA families revealed country-specific common founder haplotypes, which over time became gradually shortened by recombinations. No common haplotype was found among the controls. The data suggest that the SBMA mutation was introduced into western Finland 20 generations ago. Haplotype analysis implies a common ancestor for the majority of Scandinavian SBMA patients.

MtDNA polymorphism in the Hungarians: comparison to three other Finno-Ugric-speaking populations.

Mitochondrial DNA sequence variation as well as restriction site polymorphisms were examined in 437 individuals from four Finno-Ugric-speaking populations. These included the Hungarians (Budapest region and the Csángós from Hungary and Romania), the Finns and two Saami groups from northeastern Finland (Inari Saami and Skolt Saami), and the Erzas from central Russia. The mtDNA data obtained in this study were combined with our previous data on Y chromosomal variation for eight different loci in these populations. The genetic variation observed among the Hungarians resembled closely that found in other European populations. The Hungarians could not be distinguished from the neighboring populations (e.g., the Austrians) any more than from their Finno-Ugric linguistic relatives.

Functional analysis of novel mutations in y(+)LAT-1 amino acid transporter gene causing lysinuric protein intolerance (LPI).

Lysinuric protein intolerance (LPI; MIM 222700) is an autosomal recessive disorder characterized by defective transport of the cationic amino acids lysine, arginine and ornithine at the basolateral membrane of the polar epithelial cells in the intestine and renal tubules, and by hyperammonemia after high-protein meals. LPI is caused by mutations in the SLC7A7 (solute carrier family 7, member 7) gene encoding y(+)LAT-1 (y(+)L amino acid transporter-1), which co-induces together with 4F2 heavy chain (4F2hc) system y(+)L in Xenopus oocytes. All Finnish LPI patients share the same founder mutation 1181-2A-->T (LPI(Fin)) not found in LPI patients elsewhere. Mutation screening of 20 non-Finnish LPI patients revealed 10 novel mutations: four deletions, two missense mutations, two nonsense mutations, a splice site mutation and a tandem duplication. Five LPI mutations (L334R, G54V, 1291delCTTT, 1548delC and LPI(Fin)) were studied functionally. All mutant proteins failed to co-induce amino acid transport activity when expressed with 4F2hc in Xenopus oocytes. Immunostaining experiments revealed that frameshift mutants 1291delCTTT, 1548delC and LPI(Fin)remained intracellular on expression with 4F2hc. In contrast, the missense mutants L334R and G54V reached the oocyte plasma membrane when co-expressed with 4F2hc, demonstrating that they are transport-inactivating mutations. This finding, together with the strong degree of conservation among all members of this family of amino acid transporters, indicates that residues L334 and G54 play a crucial role in the function of the y(+)LAT-1 transporter.

Y chromosomal polymorphisms reveal founding lineages in the Finns and the Saami.

Y chromosomal polymorphisms were studied in 502 males from 16 Eurasian ethnic groups including the Finns, Saami (Inari Lake area and Skolt Saami), Karelians, Mari, Mokshas, Erzas, Hungarians (Budapest area and Csángós), Khanty, Mansi, Yakuts, Koryaks, Nivkhs, Mongolians, and Latvians. The samples were analysed for polymorphisms in the Y chromosome specific Alu insertion (YAP) and six microsatellites (DYS19, DYS389-I and II, DYS390, DYS392, DYS393). The populations were also screened for the recently described Tat polymorphism. The incidence of YAP+ type was highest in the Csángós and in other Hungarians (37.5% and 17.5%, respectively). In the Karelians and the Latvians it was present at approximately the same level as commonly found in other European populations, whilst absent in our further samples of Eurasian populations, including the Finns and the Saami. Aside from the Hungarians, the C allele of the Tat polymorphism was common in all the Finno-Ugric speaking populations (from 8.2% to 63.2%), with highest incidence in the Ob-Ugrian Khanty. The C allele was also found in the Latvians (29.4%). The haplotypes found associated with the Tat C allele showed consistently lower density than those associated with the T allele, indicating that the T allele is the original form. The computation of the age of the Tat C suggested that the mutation might be a relatively recent event giving a maximum likelihood estimate of 4440 years (95% confidence interval about 3140-6200 years). The distribution patterns of the 222 haplotypes found varied considerably among the populations. In the Finns a majority of the haplotypes could be assigned to two distinct groups, one of which harboured the C allele of the Tat polymorphism, indicating dichotomous primary source of genetic variation among Finnish males. The presence of a bottleneck or founding effect in the male lineages of some of the populations, namely in the Finns and the Saami, would appear to be one likely interpretation for these findings.

Characterization of the lysinuric protein intolerance (LPI) region within T-cell receptor alpha/delta gene cluster on chromosome site 14q11.

Lysinuric protein intolerance is a recessively inherited metabolic disease characterized by defective efflux of cationic amino acids at the basolateral membrane of the intestinal and renal tubular epithelium. Linkage analysis and further linkage disequilibrium in Finnish LPI families have earlier assigned LPI gene locus within or in close vicinity of T-cell receptor alpha/delta gene cluster on chromosome site 14q11. In the present work we have characterized the linkage defined LPI region using RH-mapping and fiber-FISH and searched the LPI gene from the reported sequence of the T-cell receptor gene.

Identification of SLC7A7, encoding y+LAT-1, as the lysinuric protein intolerance gene.

Lysinuric protein intolerance (LPI; OMIM 222700) is a rare, recessive disorder with a worldwide distribution, but with a high prevalence in the Finnish population; symptoms include failure to thrive, growth retardation, muscle hypotonia and hepatosplenomegaly. A defect in the plasma membrane transport of dibasic amino acids has been demonstrated at the baso-lateral membrane of epithelial cells in small intestine and in renal tubules and in plasma membrane of cultured skin fibroblasts from LPI patients. The gene causing LPI has been assigned by linkage analysis to 14q11-13. Here we report mutations in SLC7A7 cDNA (encoding y+L amino acid transporter-1, y+LAT-1), which expresses dibasic amino-acid transport activity and is located in the LPI region, in 31 Finnish LPI patients and 1 Spanish patient. The Finnish patients are homozygous for a founder missense mutation leading to a premature stop codon. The Spanish patient is a compound heterozygote with a missense mutation in one allele and a frameshift mutation in the other. The frameshift mutation generates a premature stop codon, eliminating the last one-third of the protein. The missense mutation abolishes y+LAT-1 amino-acid transport activity when co-expressed with the heavy chain of the cell-surface antigen 4F2 (4F2hc, also known as CD98) in Xenopus laevis oocytes. Our data establish that mutations in SLC7A7 cause LPI.

Origin of Finnish mutations causing aspartylglucosaminuria.

Aspartylglucosaminuria (AGU) is an autosomal recessive lysosomal storage disease highly enriched in Finland where one mutation AGUFin major is responsible for 98% of the AGUFin alleles. Another mutation AGUFin minor has been identified in eight compound heterozygote patients who have AGUFin major mutation in their other allele. In addition four compound heterozygote patients have AGUFin major in one allele and unknown AGUFin mutation in the other allele. To study the origin of these mutations the haplotype analysis was performed on six patients with AGUFin minor mutation and four patients with unknown AGUFin mutation using nine microsatellite markers on the 7.6 cM chromosome region on 4q28-4qter. The haplotype data suggest that one founder mutation is responsible of all AGUFin minor alleles. Allelic association was also observed in AGUFin major chromosomes. Patients with unknown mutation did not share a common haplotype and therefore most likely have different origin.

Coagulation factor V Leiden mutation in sudden fatal pulmonary embolism and in a general northern European population sample.

The R506Q point mutation in the gene coding for coagulation factor V (Leiden mutation) is the major underlying defect in resistance to activated protein C (APC), which predisposes to venous thrombosis. The risk of deep vein thrombosis is clearly elevated in carriers of the mutation, but the risk for pulmonary embolism has not been demonstrated to be as high. The aim of our study was to determine the frequency of the Leiden mutation in an autopsy series of sudden fatal pulmonary embolism cases. PCR and subsequent restriction enzyme digestion were applied for genotyping 164 cases of pulmonary embolism. According to our data, the allele frequency of the Leiden mutation is not higher in sudden fatal pulmonary embolism cases (0.8%, 95% CI 0-1.9%) than in the general Finnish population (1.5%, 95% CI 0-3.3%). In addition to the 97 Finns, we determined the frequency of the Leiden mutation in 255 individuals from the neighbouring populations (Saami, Komi, and Karelians from Russia and Estonians), and found the Saami to have the highest frequency of the Leiden mutation (6.3%, 95% CI 3.2-9.2) in the general northern European population sample studied here.

High prevalence of Kennedy's disease in Western Finland -- is the syndrome underdiagnosed?

OBJECTIVES: To assess the prevalence of Kennedy's disease in the Vasa region of Western Finland. PATIENTS AND METHODS: Verification of diagnosis by molecular genetic techniques since 1995. RESULTS: Within 2 years we have been able to identify a large number of families with this disorder. We have arrived at a point prevalence of Kennedy's disease in the district of Vasa Central Hospital of 13 patients per 85,000 male inhabitants. Assuming an even distribution throughout the country, this would suggest hundreds of patients with this disorder in Finland. CONCLUSION: Kennedy's disease is the most common motor neuron disorder in the Vasa region, exceeding the prevalence of ALS by a factor of two, and far more common than any of the other motor neuron disorders. The fact that none of our patients, despite previous examinations, had correct diagnoses before 1995, indicates that Kennedy's disease still might be relatively underdiagnosed.