Wanee Plengpanich

Multimerization of glycosylphosphatidylinositol-anchored high density lipoprotein-binding protein 1 (GPIHBP1) and familial chylomicronemia from a serine-to-cysteine substitution in GPIHBP1 Ly6 domain.

Background: GPIHBP1 binds lipoprotein lipase (LPL) and transports it to the capillary lumen. Results: A GPIHBP1 missense mutation (S107C) leads to the formation of GPIHBP1 multimers that cannot bind LPL. Conclusion: An extra cysteine leads to GPIHBP1 multimerization, defective LPL binding, and hypertriglyceridemia. Significance: This study identifies a novel mechanism by which GPIHBP1 mutations interfere with LPL binding and cause hypertriglyceridemia. GPIHBP1, a glycosylphosphatidylinositol-anchored glycoprotein of microvascular endothelial cells, binds lipoprotein lipase (LPL) within the interstitial spaces and transports it across endothelial cells to the capillary lumen. The ability of GPIHBP1 to bind LPL depends on the Ly6 domain, a three-fingered structure containing 10 cysteines and a conserved pattern of disulfide bond formation. Here, we report a patient with severe hypertriglyceridemia who was homozygous for a GPIHBP1 point mutation that converted a serine in the GPIHBP1 Ly6 domain (Ser-107) to a cysteine. Two hypertriglyceridemic siblings were homozygous for the same mutation. All three homozygotes had very low levels of LPL in the preheparin plasma. We suspected that the extra cysteine in GPIHBP1-S107C might prevent the trafficking of the protein to the cell surface, but this was not the case. However, nearly all of the GPIHBP1-S107C on the cell surface was in the form of disulfide-linked dimers and multimers, whereas wild-type GPIHBP1 was predominantly monomeric. An insect cell GPIHBP1 expression system confirmed the propensity of GPIHBP1-S107C to form disulfide-linked dimers and to form multimers. Functional studies showed that only GPIHBP1 monomers bind LPL. In keeping with that finding, there was no binding of LPL to GPIHBP1-S107C in either cell-based or cell-free binding assays. We conclude that an extra cysteine in the GPIHBP1 Ly6 motif results in multimerization of GPIHBP1, defective LPL binding, and severe hypertriglyceridemia.

Retinol-binding protein 4 is not associated with insulin resistance in pregnancy.

Retinol-binding protein 4 (RBP4) is an adipokine proposed to be specifically associated with insulin resistance (IR). We examined whether serum levels of RBP4 were associated with IR in pregnancy. One hundred seventy-two women with gestational diabetes mellitus (GDM) and 361 pregnant Thai women who did not have GDM but had a positive 50-g glucose challenge test result (plasma glucose level was ≥7.2 mmol/L after 1 hour) were enrolled. We measured fasting serum levels of RBP4 and assessed IR at a 100-g oral glucose tolerance test. We found a higher degree of IR in the GDM group compared with the non-GDM group, but serum RBP4 levels between the 2 groups were not different. Retinol-binding protein 4 levels were associated with serum triglyceride levels but were not associated with the degree of IR assessed by homeostasis model assessment or quantitative insulin sensitivity check index. Our results suggest that serum RBP4 levels in pregnancy are not associated with IR.

A Novel Germline Mutation, IVS4+1G>A, of the POU1F1 Gene Underlying Combined Pituitary Hormone Deficiency

Background: POU1F1 is a pituitary transcription factor that plays a pivotal role in pituitary development and expression of the GH, PRL and TSHβ genes. Therefore, abnormalities of the POU1F1 gene are known to be responsible for a phenotype causing combined pituitary hormone deficiency (CPHD) involving growth hormone, prolactin and thyrotropin. Methods: We described an 18-year-old Thai man, from a consanguineous family, who presented with short stature and cognitive deficit. He underwent endocrinological and molecular investigations. Results: Hormonal studies showed that the patient had GH deficiency and secondary hypothyroidism, consistent with CPHD. Direct DNA sequencing revealed a novel homozygous mutation at the splice site of exon 4, IVS4+1G>A. It is the first splice site mutation in the POU1F1 gene described to date. Of the 7 other family members studied for this mutation by restriction enzyme digestions, 5 were heterozygous. They were all unaffected, suggesting a recessive pattern of inheritance. Conclusions: We described a novel POU1F1 splice site mutation, IVS4+1G>A, the first of its kind, in a Thai patient with CPHD. Recessive inheritance is suggested. We also noted preventable morbidities which resulted from delay in diagnosis of concomitant pituitary hormone defects in newborns suspected of CPHD.

CETP deficiency due to a novel mutation in the CETP gene promoter and its effect on cholesterol efflux and selective uptake into hepatocytes

OBJECTIVES To identify the genetic variant in the CETP gene of the proband with high HDL-C and low CETP activity and to investigate whether HDL from the CETP-deficient subject was dysfunctional in the reverse cholesterol transport (RCT) pathway. METHODS We sequenced the CETP gene and assessed its promoter activity. Cholesterol efflux and hepatic cholesteryl ester delivery studies were also performed using the probands HDL. RESULTS A proband was a compound heterozygote for a known D459G variant and a novel 18-bp deletion mutation in the CETP promoter. This promoter mutation markedly reduced the transcriptional activity in HepG2 cells. HDL2 from this subject increased SR-BI-mediated cholesterol efflux, whereas cholesteryl ester delivery into hepatocytes was maintained. CONCLUSION A novel deletion mutation in the CETP promoter is associated with high HDL-C and decreased promoter activity. HDL from this CETP-deficient subject was not dysfunctional in mediating two main steps of RCT assessed in vitro.

Two novel mutations and functional analyses of the CETP and LIPC genes underlying severe hyperalphalipoproteinemia

Previous studies have shown that CETP and LIPC mutations contribute to hyperalphalipoproteinemia (HALP) in some populations. We investigated whether activities in cholesteryl ester transfer protein (CETP) and hepatic lipase (HL) contribute to HALP in the Thai population and performed genetic analyses of the CETP and LIPC genes. We recruited 38 individuals with high-density lipoprotein cholesterol (HDL-C) levels of at least 2.59 mmol/L (100 mg/dL) (HALP group) and an equal number of individuals with normal serum HDL-C levels (control group). The CETP and HL activities were determined in both groups. Genetic analyses covering all the coding regions and exon-intron junctions of the CETP and LIPC genes were performed in subjects who had low CETP activity and HL activity, respectively. The mean CETP and HL activities were significantly lower in the HALP group than in the control group (34 +/- 4 vs 44 +/- 3 pmol/[microL h], P = .04 and 150 +/- 17 vs 227 +/- 16 nmol free fatty acid/[mL min] P = .002, respectively). Of the 38 individuals with HALP, 19 and 16 were found to have low CETP activity and HL activity, respectively. Of the 19 subjects with low CETP activity, 6 subjects were found to be heterozygous for a known functionally relevant c.1325A>G (D442G) mutation. The other subject was found to be heterozygous for a novel deletion mutation, c.734_737delTCCC mutation. Of the 16 subjects with low HL activity, 8 and 2 subjects were found to be heterozygous for known variants, c.283 G>A (V73M) and c.1068A>C (L334F), respectively. These variants have previously been shown not to be associated with HALP. Another subject was found to be heterozygous for a novel missense mutation, c.421G>A (G119S). Its amino acid change, absence in controls, evolutionary conservation, occurrence in functionally important domain, and predicted damaging function suggested that the G119S mutation is functionally relevant. Two novel mutations in the CETP and LIPC genes found in this study are likely to be the causes of low enzyme activities and elevated HDL-C levels.

Effects of human apolipoprotein A-I on endotoxin-induced leukocyte adhesion on endothelial cells in vivo and on the growth of Escherichia coli in vitro

Background: High-density lipoprotein (HDL) has been shown to inhibit leukocyte adhesion to endothelial cells induced by endotoxin in vivo and suppress the growth of bacteria in vitro; however, the components responsible for these effects, either lipids or proteins, are not yet defined. In this study, we examined the effects of apolipoprotein (apo) A-I, the major protein of HDL, on ameliorating the effect of endotoxin and inhibiting the growth of bacteria. Materials and Methods: Apo A-I, purified from normal human HDL, was incubated with endotoxin. Leukocyte adhesion to endothelial cells of rat mesenteric venules was assessed using intravital fluorescence microscopy. Ability of apo A-I to inhibit the growth of Escherichia coli was assessed using a spread plate method. Results: Purified, lipid-free apo A-I could inhibit endotoxin-induced leukocyte adhesion to endothelial cells in vivo in a dose-dependent manner. In addition, apoA-I was able to suppress the growth of Escherichia coli in vitro. Conclusions: These data suggest that apo A-I of HDL can directly interact with endotoxin, ameliorating its effect and that apo A-I may have a direct toxic effect on whole bacteria. Therefore, therapeutic use of apo A-I in septicemia and bacterial infection should be further explored.

Bilateral pheochromocytoma during the postpartum period

BackgroundPheochromocytoma manifesting during pregnancy is uncommon but it is responsible for a high maternal and fetal mortality rate, especially when unrecognized. Most cases of pheochromocytoma are sporadic but they can be part of hereditary autosomal dominant syndromes.CaseWe describe a case of bilateral pheochromocytoma in a term-pregnant patient with a previous history of medullary thyroid carcinoma (MTC). Her genetic study revealed a heterozygous mutation, c.1900T>C, in the RET proto-oncogene which confirmed the diagnosis of multiple endocrine neoplasia type 2A (MEN2A). Unrecognized, the tumors caused a crisis with fatal outcome in the mother during the postpartum period. This event might have been prevented if the tumor had been detected previously.ConclusionMEN2A affected pregnancy is an unusual condition. This syndrome should be suspected when a pregnant patient has a history of MTC. Early detection and appropriate management can prevent serious maternal and fetal complications. We also reviewed the literature of MEN2A-affected pregnancies.

Resequencing CETP, LIPC and LIPG Genes in Thai Subjects With Hyperalphalipoproteinemia

Genetic factors associated with hyperalphalipoproteinemia (HALP; or high levels of high-density lipoprotein cholesterol) are incompletely understood. The aim of this study was to resequence 3 candidate genes, CETP, LIPC, and LIPG, which encode cholesteryl ester transfer protein, hepatic lipase, and endothelial lipase, respectively, in Thai subjects with HALP and compare them to normolipidemic controls. Sequence variants of CETP, LIPC, and LIPG were identified by sequencing exons and exon-intron junctions in 64 subjects with high-density lipoprotein cholesterol levels ≥2.59 mmol/L (100 mg/dl) and compared to those of 113 normolipidemic subjects. Two heterozygous frameshift mutations in CETP (p.Leu262ProfsX31 and p.Val411ArgfsX6) and two heterozygous missense mutations in LIPC (p.Gly141Ser and p.Val173Met) were found. One deletion mutation and 3 point mutations in the CETP promoter were also identified. Collectively, these rare mutations were found only in the HALP group but not in the control group (8% vs 0%, p = 0.0056). One common variant of CETP (p.Asp459Gly) was found at a higher frequency in the HALP group (23% vs 4%, p = 0.000074). Altogether, rare variants of CETP or LIPC and/or the common CETP p.Asp459Gly variant were found in 30% of the HALP group and 4% of the controls (p = 0.0000014). No rare variant of LIPG was identified. In conclusion, common and rare genetic variants in CETP and LIPC, but not LIPG, were more commonly found in the Thai HALP group, which could potentially contribute to high high-density lipoprotein cholesterol phenotypes in this population.

Two common and three novel PDS mutations in Thai patients with Pendred syndrome

Pendred syndrome is an autosomal recessive disorder characterized by congenital sensorineural deafness, goiter, and impaired iodide organification. It is caused by mutations in the PDS gene. Most published mutation studies of Pendred syndrome have dealt with Western populations. In this study, we examined clinical and molecular characteristics of 16 affected individuals in 6 unrelated Thai families. Of all the affected, 100% (16/16) had bilateral deafness, 68.8% (11/16) goiters, and 25% (4/16) hypothyroidism. Follicular thyroid carcinoma and Hürthle cell adenoma were found in affected members of a family, raising the possibility of an increased risk of thyroid carcinoma in Pendred syndrome patients. Sequence analysis of the entire coding region of the PDS gene successfully identified all 12 mutant alleles in these 6 families. The 12 identified mutant alleles constituted 6 distinct mutations including 3 splice site mutations (IVS4-1G>A, IVS7-2A>G, IVS9-1G>A), one frame shift mutation (1548insC) and 2 missense mutations (T67S, H723R). Eight mutations out of 12 were constituted by IVS7-2A>G and 1548insC, each one being present in 4 distinct alleles in our studied group. The identification of these two frequent PDS mutations will facilitate the molecular diagnosis of Pendred syndrome in Thai populations. In addition, three newly identified mutations, T67S, IVS4-1G>A, and IVS9-1G>A, were not observed in 50 unrelated healthy Thai controls.

Apolipoprotein A-V is not a major determinant of triglyceride levels during human sepsis

PURPOSE During critical illnesses, alterations in lipid metabolism occur. We examined levels of apolipoprotein A-V, a novel regulator of triglyceride metabolism, during sepsis in humans. METHODS Seventy-five cases of sepsis and 75 cases of acute illnesses not associated with infection were recruited. Lipids and apolipoprotein A-V levels were measured by enzymatic methods and enzyme-linked immunosorbent assay, respectively, within 24 hours of diagnosis. Fifty healthy controls were also enrolled. RESULTS During sepsis and acute illnesses, serum total cholesterol and high-density lipoprotein cholesterol levels were significantly lower than those in controls. Serum triglyceride levels, however, were not significantly different. Similarly, serum apolipoprotein A-V levels during sepsis were not significantly different from those during acute illnesses and those in controls (expressed as median [interquartile range]: 149.6 [97.5-257.1] vs 157.9 [98.4-238.2] and 155.9 [91.5-253.8] ng/mL, respectively; P = .98); and they were not correlated with serum triglyceride levels. Low apolipoprotein A-V levels were associated with higher mortality, but the association became nonsignificant after adjusting for high-density lipoprotein cholesterol levels. CONCLUSIONS During sepsis or acute illnesses, serum apolipoprotein A-V levels were not significantly different from those in controls. Furthermore, apolipoprotein A-V levels were not linearly correlated with triglyceride levels, suggesting that it might not be a major determinant of triglyceride levels during sepsis.