Jing‐Ping Lin scite author profile

Plasma lipoprotein(a) ILp(a)I, a low density lipoprotein particle with an attached apolipoprotein(a) Iapo(a)J, varies widely in concentration between individuals. These concentration differences are heritable and inversely related to the number of kringle 4 repeats in the apo(a) gene. To define the genetic determinants of plasma Lp(a) levels, plasma Lp(a) concentrations and apo(a) genotypes were examined in 48 nuclear Caucasian families. Apo(a) genotypes were determined using a newly developed pulsed-field gel electrophoresis method which distinguished 19 different genotypes at the apo(a) locus. The apo(a) gene itself was found to account for virtually all the genetic variability in plasma Lp(a) levels. This conclusion was reached by analyzing plasma Lp(a) levels in siblings who shared zero, one, or two apo(a) genes that were identical by descent (ibd). Siblings with both apo(a) alleles ibd (n = 72) have strikingly similar plasma Lp(a) levels (r = 0.95), whereas those who shared no apo(a) alleles (n = 52), had dissimilar concentrations (r = -0.23). The apo(a) gene was estimated to be responsible for 91% of the variance of plasma Lp(a) concentration. The number of kringle 4 repeats in the apo(a) gene accounted for 69% of the variation, and yet to be defined cis-acting sequences at the apo(a) locus accounted for the remaining 22% of the inter-individual variation in plasma Lp(a) Plasma concentrations of Lp(a) vary over a wide range among individuals, but are remarkably stable in any given individual (10). Many physiological, pharmacological, and environmental factors that affect the levels ofother plasma lipoproteins have no effect on the plasma concentration of Lp(a) (10). This lack of environmental and physiological influences suggests that plasma Lp(a) levels are largely genetically determined. Consistent with this formulation, early genetic studies suggested that the presence ofLp(a) in plasma was inherited as an autosomal dominant trait (1 1-13). When more sensitive immunoassays of plasma Lp(a) concentrations were used, it was found that plasma Lp(a) concentrations varied continuously among individuals ( 14), and the pattern of inheritance indicated that a major gene, as well as polygenic factors, contributed to plasma Lp(a) concentrations (15)(16)(17).Fless et al. ( 18) and Utermann et al. (19) found that the apo(a) glycoprotein varied in size among individuals. In an important series of studies, Utermann and his colleagues demonstrated that the size ofthe apo(a) protein is inversely related to the level of plasma Lp(a), thus implicating the apo(a) gene as a major determinant of plasma Lp(a) concentrations (20-23). However, the immunoblotting technique used to type the apo(a) isoforms was not sensitive enough to detect low levels of apo(a) protein, and not all of the apo(a) isoforms were detected. As a result, the frequency distribution of the apo(a) isoforms failed to fit the expectations ofHardy-Weinberg equilibrium (22). In addition, when immunoblotting was employed to examine the segregation o...

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Genetic heterogeneity and spectrum of mutations of the PRKAR1A gene in patients with the Carney complex

Kirschner

et al. 2000

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Carney complex (CNC) is an autosomal dominant multiple neoplasia syndrome, which has been linked to loci on 2p16 and 17q22-24. We recently reported that PRKAR1A, which codes for the type 1A regulatory subunit of protein kinase A (PKA), is a tumor suppressor gene on chromosome 17 that is mutated in some CNC families. To evaluate the spectrum of PRKAR1A mutations, we identified its genomic structure and screened for mutations in 54 CNC kindreds (34 families and 20 patients with sporadic disease). Fourteen families were informative for linkage analysis: four of four families that mapped to 17q had PRKAR1A mutations, whereas there were no mutations found in seven families exhibiting at least one recombination with 17q. In six of the latter, CNC mapped to 2p16. PRKAR1A mutations were also found in 12 of 20 non-informative families and 7 of 20 sporadic cases. Altogether, 15 distinct PRKAR1A mutations were identified in 22 of 54 kindreds (40.7%). In 14 mutations, the sequence change was predicted to lead to a premature stop codon; one altered the initiator ATG codon. Mutant mRNAs containing a premature stop codon were unstable, as a result of nonsense-mediated mRNA decay. Accordingly, the predicted truncated PRKAR1A protein products were absent in these cells. We conclude that (i) genetic heterogeneity exists in CNC; and (ii) all of the CNC alleles on 17q are functionally null mutations of PRKAR1A. CNC is the first human disease recognized to be caused by mutations of the PKA holoenzyme, a critical component of cellular signaling.

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Carney complex, a familial multiple neoplasia and lentiginosis syndrome. Analysis of 11 kindreds and linkage to the short arm of chromosome 2.

Stratakis

Carney²,

Lin³

et al. 1996

J. Clin. Invest.

431

217

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Carney complex is an autosomal dominant syndrome characterized by multiple neoplasias, including myxomas at various sites and endocrine tumors, and lentiginosis. The genetic defect(s) responsible for the complex remain(s) unknown. We studied 101 subjects, including 51 affected members, from 11 North American kindreds with Carney complex. Blood samples were collected from patients and their family members. Hospital records, photographs, and tissue specimens of deceased individuals were reviewed. DNA was extracted from blood samples, patient-derived cell lines, and/ or paraffin-embedded tissues. Linkage analysis was performed with highly polymorphic microsatellite markers, distributed over areas of the human genome harboring the most likely candidate genes. The most prevalent clinical manifestation in patients with Carney complex was spotty skin pigmentation, similar to that observed in Peutz-Jeghers and other lentiginosis syndromes. Skin and cardiac myxomas, Cushing syndrome, and acromegaly were present in 62, 30, 31, and 8 percent of the patients, respectively. Linkage was obtained for three markers on the short arm of chromosome 2 (2p16), with a maximum two-point lod score of 5.97 at ϭ 0.03 for the marker CA-2 (odds in favor of linkage 10 6 :1). The flanking markers CA7 and D2S378 defined a region of ‫ف‬ 6.4 cM that is likely to contain the gene(s) associated with Carney complex. Candidate genes in the proximity, including the propiomelanocortin and the DNA-mismatch repair hMSH2 genes, were excluded. We conclude that the genetic defect(s) responsible for Carney complex map(s) to the short arm of chromosome 2 (2p16). This region has exhibited cytogenetic aberrations in atrial myxomas associated with the complex, and has been characterized by microsatellite instability in human neoplasias.

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Genome-wide association meta-analysis for total serum bilirubin levels

Johnson

Kavousi

Smith

et al. 2009

Human Molecular Genetics

215

188

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Variation in serum bilirubin is associated with altered cardiovascular disease risk and drug metabolism. We aimed to identify genetic contributors to variability in serum bilirubin levels by combining results from three genome-wide association studies (Framingham heart study, n = 3424; Rotterdam study, n = 3847; Age, Gene, Environment and Susceptibility-Reykjavik, n = 2193). Meta-analysis showed strong replication for a genetic influence on serum bilirubin levels of the UGT1A1 locus (P < 5 x 10(-324)) and a 12p12.2 locus. The peak signal in the 12p12.2 region was a non-synonymous SNP in SLCO1B1 (rs4149056, P = 6.7 x 10(-13)), which gives rise to a valine to alanine amino acid change leading to reduced activity for a hepatic transporter with known affinity for bilirubin. There were also suggestive associations with several other loci. The top variants in UGT1A1 and SLCO1B1 explain approximately 18.0 and approximately 1.0% of the variation in total serum bilirubin levels, respectively. In a conditional analysis adjusted for individual genotypes for the top UGT1A1 variant, the top SLCO1B1 variant remained highly significant (P = 7.3 x 10(-13)), but no other variants achieved genome-wide significance. In one of the largest genetic studies of bilirubin to date (n = 9464), we confirm the substantial genetic influence of UGT1A1 variants, consistent with past linkage and association studies, and additionally provide strong evidence of a role for allelic variation in SLCO1B1. Given the involvement of bilirubin in a number of physiological and disease processes, and the roles for UGT1A1 and SLCO1B1 in drug metabolism, these genetic findings have potential clinical importance. In analyses for association with gallbladder disease or gallstones, top bilirubin SNPs in UGT1A1 and SLCO1B1 were not associated.

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Serum Vascular Endothelial Growth Factor-D Levels in Patients With Lymphangioleiomyomatosis Reflect Lymphatic Involvement

Glasgow

Avila

Lin

et al. 2009

Chest

108

120

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Jing‐Ping Lin

Apolipoprotein(a) gene accounts for greater than 90% of the variation in plasma lipoprotein(a) concentrations.

Genetic heterogeneity and spectrum of mutations of the PRKAR1A gene in patients with the Carney complex

Carney complex, a familial multiple neoplasia and lentiginosis syndrome. Analysis of 11 kindreds and linkage to the short arm of chromosome 2.

Genome-wide association meta-analysis for total serum bilirubin levels

Serum Vascular Endothelial Growth Factor-D Levels in Patients With Lymphangioleiomyomatosis Reflect Lymphatic Involvement

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