Pi Mheerlen,a Pi M allele resulting in very low a 1-antitrypsin serum levels

Summary A patient with pulmonary emphysema is described, who had a very low ₁-antitrypsin serum concentration (2% of normal). After isoelectric focusing and staining, the patient's serum revealed no visible ₁-antitrypsin bands. Immunofixation, following isoelectric focusing, gave a banding pattern identical to that of a normal M type. The existence of this deficient M-allele was confirmed by family studies. Low ₁-antitrypsin concentrations, due to the presence of the deficient allele, were coupled with low serum antitrypsin activities.     

Localized real time blood flow measurements

A novel method for real time, localized, flow measurements is applied to blood flow in human fingers. Results for arterial and venous flow in normal subjects and patients with abnormal blood circulation are presented. Effects of blood flow regulation by the autonomic nervous system have been observed. Stricture of the digital arteries could be clearly demonstrated in a patient with Raynaud's phenomenon. Experimental signals due to pulsatile flow in a model system can be simulated in a quantitative way. The calibration, however, depends on the actual spin-spin relaxation time and the shape of the pulsatile flow vs. time curve. Due to these limitations, the volume flow rate can be measured with a relative error of approximately +/- 25%.     

Functional changes in human leukemic cell line HL-60. A model for myeloid differentiation

Polar solvents induce terminal differentiation in the human promyelocytic leukemia cell line HL-60. The present studies describe the functional changes that accompany the morphologic progression from promyelocytes to bands and poly-morphonuclear leukocytes (PMN) over 9 d of culture in 1.3 percent dimethylsulfoxide (DMSO). As the HL-60 cells mature, the rate of O(2-) production increase 18-fold, with a progressive shortening of the lag time required for activation. Hexosemonophosphate shunt activity rises concomitantly. Ingestin of paraffin oil droplets opsonized with complement or Ig increases 10-fold over 9 d in DMSO. Latex ingestion per cell by each morphologic type does not change significantly, but total latex ingestion by groups of cells increases with the rise in the proportion of mature cells with greater ingestion capacities. Degranulation, as measured by release of β-glucuronidase, lysozyme, and peroxidase, reaches maximum after 3-6 d in DMSO, then declines. HL-60 cells contain no detectable lactoferrin, suggesting that their secondary granules are absent or defective. However, they kill staphylococci by day 6 in DMSO. Morphologically immature cells (days 1-3 in DMSO) are capable of O(2-) generation, hexosemonophosphate shunt activity, ingestion, degranulation, and bacterial killing. Maximal performance of each function by cells incubated in DMSO for longer periods of time is 50-100 percent that of normal PMN. DMSO- induced differentiation of HL-60 cells is a promising model for myeloid development.     

Identification of a family of animal sphingomyelin synthases

Sphingomyelin (SM) is a major component of animal plasma membranes. Its production involves the transfer of phosphocholine from phosphatidylcholine onto ceramide, yielding diacylglycerol as a side product. This reaction is catalysed by SM synthase, an enzyme whose biological potential can be judged from the roles of diacylglycerol and ceramide as anti- and proapoptotic stimuli, respectively. SM synthesis occurs in the lumen of the Golgi as well as on the cell surface. As no gene for SM synthase has been cloned so far, it is unclear whether different enzymes are present at these locations. Using a functional cloning strategy in yeast, we identified a novel family of integral membrane proteins exhibiting all enzymatic features previously attributed to animal SM synthase. Strikingly, human, mouse and Caenorhabditis elegans genomes each contain at least two different SM synthase (SMS) genes. Whereas human SMS1 is localised to the Golgi, SMS2 resides primarily at the plasma membrane. Collectively, these findings open up important new avenues for studying sphingolipid function in animals.     

A phylogenetic survey of biliary lipids in vertebrates

Biliary lipids (bile salts, phospholipids, cholesterol, plant sterols) were determined in 89 vertebrate species (cartilaginous and bony fish, reptiles, birds, and mammals), and individual phospholipid classes were measured in 35 species. All samples contained conjugated bile salts (C(27) bile alcohol sulfates and/or N-acyl amidates of C(27) and/or C(24) bile acids). Phospholipids were generally absent in the bile of cartilaginous fish and reptiles and were present in low amounts relative to bile salts in bony fish and most birds. In mammals, the phospholipid-bile salt ratio varied widely. The bile from species with low biliary phospholipid-bile salt ratios often contained a high proportion of sphingomyelin, confirmed by HPLC-MS. In species with a high phospholipid-bile salt ratio, the predominant biliary phospholipid was phosphatidylcholine (PC). The phospholipid-bile salt ratio correlated weakly with the calculated weighted hydrophobic index value. Cholesterol was present in the bile of virtually all species, with plant sterols uniformly being present in only trace amounts. The cholesterol-bile salt ratio tended to be higher in mammals than in non-mammals, but bile of all species was unsaturated. Thus, most nonmammalian vertebrates have relatively low levels of biliary phospholipid and cholesterol, suggesting that cholesterol is eliminated predominantly as bile salts. Mammals have a higher phospholipid and cholesterol to bile salt ratio, with the dominant phospholipid being PC.     

Mass spectrometric analysis of the Schistosoma mansoni tegumental sub-proteome

Schistosoma mansoni is a parasitic worm that lives in the blood vessels of its host. We mapped the S. mansoni tegumental outer-surface structure proteome by 1D SDS-PAGE and LC-MS/MS and an EST-database from the ongoing genome-sequencing project. We identified 740 proteins of which 43 were tegument-specific. Many of these proteins show no homology to any nonschistosomal protein, demonstrating that the schistosomal outer-surface comprises specific and unique proteins, likely to be critical for parasite survival.     

Computing approximate standard errors for genetic parameters derived from random regression models fitted by average information REML

Approximate standard errors (ASE) of variance components for random regression coefficients are calculated from the average information matrix obtained in a residual maximum likelihood procedure. Linear combinations of those coefficients define variance components for the additive genetic variance at given points of the trajectory. Therefore, ASE of these components and heritabilities derived from them can be calculated. In our example, the ASE were larger near the ends of the trajectory.     

Cardiolipin Molecular Species with Shorter Acyl Chains Accumulate in Saccharomyces cerevisiae Mutants Lacking the Acyl Coenzyme A-binding Protein Acb1p: NEW INSIGHTS INTO ACYL CHAIN REMODELING OF CARDIOLIPIN*

The function of the mitochondrial phospholipid cardiolipin (CL) is thought to depend on its acyl chain composition. The present study aims at a better understanding of the way the CL species profile is established in Saccharomyces cerevisiae by using depletion of the acyl-CoA-binding protein Acb1p as a tool to modulate the cellular acyl chain content. Despite the presence of an intact CL remodeling system, acyl chains shorter than 16 carbon atoms (C16) were found to accumulate in CL in cells lacking Acb1p. Further experiments revealed that Taz1p, a key CL remodeling enzyme, was not responsible for the shortening of CL in the absence of Acb1p. This left de novo CL synthesis as the only possible source of acyl chains shorter than C16 in CL. Experiments in which the substrate specificity of the yeast cardiolipin synthase Crd1p and the acyl chain composition of individual short CL species were investigated, indicated that both CL precursors (i.e. phosphatidylglycerol and CDP-diacylglycerol) contribute to comparable extents to the shorter acyl chains in CL in acb1 mutants. Based on the findings, we conclude that the fatty acid composition of mature CL in yeast is governed by the substrate specificity of the CL-specific lipase Cld1p and the fatty acid composition of the Taz1p substrates.Cardiolipin (CL)⁵ is a unique anionic glycerophospholipid with dimeric structure containing four acyl chains, which is almost exclusively localized to the mitochondrial inner membrane in eukaryotic cells (1, 2). CL has been shown to co-isolate with, and to be required for optimal activity of a number of enzymes in the respiratory chain (3–5), and it has been implicated in the stability and assembly of protein (super)complexes (6–8). In the presence of divalent cations and dependent on the acyl chain composition, CL has a propensity for membrane negative curvature, a property that may be important in, e.g. membrane fusion and fission (9, 10). In addition, CL is thought to serve as a proton trap in oxidative phosphorylation (11). In recent years, CL has also been implicated in apoptosis (12, 13).CL is synthesized in the inner mitochondrial membrane by condensation of PG and CDP-DAG, catalyzed by the cardiolipin synthase Crd1p (see Fig. 1; reviewed in Ref. 4). Compared with the other phospholipid classes, CL is enriched in unsaturated acyl chains, and the molecular species of CL possess a high degree of molecular symmetry (14). The CL-specific acyl chain pattern originates from substrate preferences during biosynthesis and subsequent remodeling by acyl chain exchange (15). The finding of an aberrant CL species profile in patients suffering from Barth syndrome, which results from mutations in the tafazzin gene (16), revealed the importance of CL remodeling, and set the stage for the identification of tafazzin as the acyltransferase involved (17, 18). The Drosophila homologue of tafazzin was shown to be a CoA-independent phospholipid transacylase with substrate preference for CL and PC (19).Open in a separate windowFIGURE 1.The cardiolipin biosynthetic pathway in the context of phospholipid biosynthesis in yeast. The enzymes of the CL biosynthetic pathway identified at the gene level are indicated: Cds1p, CDP-DAG synthase; Pgs1p, phosphatidylglycerolphosphate synthase; Crd1p, CL synthase; Taz1p, Tafazzin; Cld1p, CL-specific deacylase.The biosynthesis and remodeling of CL have been extensively studied in the yeast Saccharomyces cerevisiae. After synthesis by Crd1p, CL is subject to deacylation and reacylation, which involves the yeast homologue of tafazzin encoded by the TAZ1 gene. The yeast taz1 mutant has defects similar to those found in Barth syndrome, including reduced CL content, an aberrant CL species profile, and an accumulation of monolyso-CL (20). The bioenergetic coupling of isolated mitochondria from a taz1 mutant is compromised (21), which may be accounted for by the impaired assembly of the III₂IV₂ supercomplex (22). Recently, the CL-specific phospholipase Cld1p was identified, which functions upstream of Taz1p (23).Because the acyl chain composition of CL is important for its function, we investigated how the molecular species profile of CL is attained by using depletion of the 10-kDa cytosolic acyl-CoA-binding protein Acb1p as a tool to modify the cellular acyl chain content. Deletion of the ACB1 gene increases the cellular levels of C14 and C16 fatty acids at the expense of C18, without having adverse effects on cell growth or on the rate of glycerophospholipid synthesis (24–26). The changes in fatty acid composition are reflected to varying extents in the molecular species profile of phospholipids in Acb1p-depleted cells as determined by electrospray ionization-mass spectrometry (ESI-MS) (27, 28). We first determined by mass spectrometry that in the absence of Acb1p acyl chains shorter than C16 accumulate in CL as in the other phospholipid classes despite the Cld1p-Taz1p remodeling system. Using appropriate mutants and analysis by mass spectrometry, we investigated two possible origins of the shorter acyl chains in CL: (i) remodeling by Taz1p and (ii) de novo synthesis of CL from PG and CDP-DAG.     

ArrayIDer: automated structural re-annotation pipeline for DNA microarrays

Background  

Systems biology modeling from microarray data requires the most contemporary structural and functional array annotation. However, microarray annotations, especially for non-commercial, non-traditional biomedical model organisms, are often dated. In addition, most microarray analysis tools do not readily accept EST clone names, which are abundantly represented on arrays. Manual re-annotation of microarrays is impracticable and so we developed a computational re-annotation tool (ArrayIDer) to retrieve the most recent accession mapping files from public databases based on EST clone names or accessions and rapidly generate database accessions for entire microarrays.