Diversification of exogenous genes in vivo in Neurospora

We have adapted the meiotic recombination hotspot cog of Neurospora crassa for shuffling exogenous DNA, providing a means of generating novel genes in situ from sequences introduced into chromosomes. Genes to be diversified are inserted between the his-3 locus and cog. Diversification crosses are heterozygous both for alleles of the exogenous DNA and for auxotrophic alleles of his-3. Progeny selected for ability to grow without histidine supplementation are enriched for exchange events within the exogenous DNA. Exchange events initiated by cog can propagate past DNA sequences mismatched for more than 370 bp and complete exchanges in patches of matched sequence as short as 24 bp, parameters that make the system suited for use in the directed evolution of genes for protein engineering. Here we demonstrate the system by shuffling human immunoglobulin kappa chain genes and also endoglucanase genes derived from different species of fungi.

Apolipoprotein J/clusterin limits the severity of murine autoimmune myocarditis

Apolipoprotein J/clusterin (apoJ/clusterin), an intriguing protein with unknown function, is induced in myocarditis and numerous other inflammatory injuries. To test its ability to modify myosin-induced autoimmune myocarditis, we generated apoJ-deficient mice. ApoJ-deficient and wild-type mice exhibited similar initial onset of myocarditis, as evidenced by the induction of two early markers of the T cell-mediated immune response, MHC-II and TNF receptor p55. Furthermore, autoantibodies against the primary antigen cardiac myosin were induced to the same extent. Although the same proportion of challenged animals exhibited some degree of inflammatory infiltrate, inflammation was more severe in apoJ-deficient animals. Inflammatory lesions were more diffuse and extensive in apoJ-deficient mice, particularly in females. In marked contrast to wild-type animals, the development of a strong generalized secondary response against cardiac antigens in apoJ-deficient mice was predictive of severe myocarditis. Wild-type mice with a strong Ab response to secondary antigens appeared to be protected from severe inflammation. After resolution of inflammation, apoJ-deficient, but not wild-type, mice exhibited cardiac function impairment and severe myocardial scarring. These results suggest that apoJ limits progression of autoimmune myocarditis and protects the heart from postinflammatory tissue destruction.

Parathyroid hormone-related protein induces G1 phase growth arrest of vascular smooth muscle cells

In this study, we investigated the mechanisms responsible for the growth-inhibitory action of parathyroid hormone-related protein (PTHRP) in A10 vascular smooth muscle cells (VSMC). Fluorescence-activated cell sorting analysis of serum-stimulated VSMC treated with PTHRP or dibutyryl-cAMP (DBcAMP) demonstrated an enrichment of cells in G1 and a reduction in the S phase. Measurement of DNA synthesis in platelet-derived growth factor-stimulated VSMC treated with DBcAMP revealed that cells became refractory to growth inhibition by 12-16 h, consistent with blockade in mid-G1. cAMP treatment blunted the serum-induced rise in cyclin D1 during cell cycle progression without altering levels of the cyclin-dependent kinase cdk4 or cyclin E and its associated kinase, cdk2. Exposure of cells to PTHRP or cAMP resulted in a reduction in retinoblastoma gene product (Rb) phosphorylation. Immunoblotting of extracts from cAMP-treated cells with antibodies to cdk inhibitors revealed a striking increase in p27(kip1) abundance coincident with the G1 block. Immunoprecipitation with an anti-cyclin D1 antibody of cell lysates prepared from cAMP-treated cells followed by immunoblotting with antisera to p27(kip1) disclosed a threefold increase in p27(kip1) associated with cyclin D1 compared with lysates treated with serum alone. We conclude that PTHRP, by increasing intracellular cAMP, induces VSMC cycle arrest in mid-G1. This occurs secondary to a suppression in cyclin D1 and induction of p27(kip1) expression, which in turn inhibits Rb phosphorylation.

Targeted disruption of the murine lecithin:cholesterol acyltransferase gene is associated with reductions in plasma paraoxonase and platelet-activating factor acetylhydrolase activities but not in apolipoprotein J concentration

Lecithin:cholesteryl acyltransferase (LCAT) deficiency resulting from targeted disruption of the Lcat gene in the mouse is associated with dramatic decreases in HDL concentration and the accumulation of nascent HDL in the plasma. We examined whether LCAT deficiency in mice is associated with a concomitant decrease in two antioxidative enzymes, paraoxonase (PON) and platelet-activating factor acetylhydrolase (PAF-AH). In control Lcat (+/+) mice both these enzymes are transported on HDL. Compared to Lcat (+/+) mice, HDL-cholesterol is reduced 94% and apoA-I, 90%, in Lcat (-/-) mice; this reduction in HDL is paralleled by a 71% decrease in PAF-AH activity and in a 58% decrease in PON activity. Apolipoprotein J (apoJ) levels, rather than being decreased, were significantly (P = 0.01) higher (36%) in Lcat (-/-) than in Lcat (+/+) mice, and the apo J/PON ratio was 3-fold greater in Lcat (-/-) than in Lcat (+/+) animals. Even though apolipoprotein A-I (apoA-I) concentration and PON activity were drastically reduced, there was no reduction in apoA-I and PON liver mRNA levels suggesting that post-transcriptional events are responsible for the reduction of plasma PON and apoA-I levels. Fast protein liquid chromatography (FPLC) revealed that in Lcat (+/+) mice both PON and PAF-AH activity is associated with large, apoA-I-containing HDL particles (9.7 nm by non-denaturing gradient gel electrophoresis) while in Lcat (-/-) mice both enzymes are associated with small 8.2 nm particles. We conclude that the concomitant reduction in HDL and apoA-I concentrations and PON and PAF-AH activities is best explained by rapid clearance of the small HDL particles found in LCAT deficiency.

Identification and immunohistochemical localization of protein precursors to human axillary odors in apocrine glands and secretions

OBJECTIVES

To determine the cellular localization in male and female axillary tissue for apocrine secretion odor-binding proteins 1 (ASOB1) and 2 (ASOB2) and the electrophoretic pattern of female apocrine proteins and to begin characterization of the ASOB1 protein.

DESIGN

Immunohistochemical techniques were used with biopsy samples from axillary tissue of male and female subjects. Immunological techniques and microsequencing were used to characterize several of the proteins in male and female apocrine secretions.

SETTING

A university medical center.

PARTICIPANTS

Healthy male and female volunteers who donated apocrine secretions and/or axillary tissue.

RESULTS

Specific immunoreactivity was localized only to the apocrine glands in both sexes. Furthermore, only preabsorption with a mixed apocrine secretion sample eliminated all immunoreactivity. The electrophoretic pattern of proteins in female apocrine secretions is similar to that in male secretions. Western blotting of the separated proteins from female samples using serum samples containing antibodies to ASOB1 and ASOB2 yielded identical results to those found with separated proteins from male samples. Partial sequence data obtained from the N-terminus of ASOB1 suggested that it shares homology with the alpha-chain of apolipoprotein J (Apo J). Apocrine secretion odor-binding protein 1 is not immunologically similar to ApoJ, but 2 other apocrine secretion proteins are.

CONCLUSIONS

Male and female subjects appear to have the same glycoprotein carriers for (E)-3-methyl-2-hexenoic acid localized to the apocrine glands. The N-terminal sequence for ASOB1 may be homologous to Apo J, but it is not immunologically similar to it. However, 2 other proteins in the apocrine secretion appear to be the monomer and dimer forms of Apo J.

Apolipoprotein J/clusterin induction in myocarditis: A localized response gene to myocardial injury

The function of apolipoprotein J (apoJ) is unknown, but it has been hypothesized to be cytoprotective. In the normal heart, abundant apoJ mRNA and protein are expressed in atrial myocytes; no expression is detected in ventricular myocytes. To provide clues about the role of apoJ in the heart, the response of apoJ to heart disease, including three models of myocarditis and two models of in vivo pressure overload hypertrophy, were examined. In the disease model studied extensively, myosin-induced myocarditis, in situ hybridization detected induction of apoJ mRNA in ventricular myocytes immediately before histological evidence of injury. ApoJ message in ventricular myocytes reached high levels as myocarditis became more severe. Evidence of early apoJ induction, before inflammation and injury, also occurred in viral myocarditis. ApoJ mRNA was not present in the inflammatory or interstitial cells during myocarditis. In areas of severe inflammation and myocardial fiber degeneration, apoJ showed a gradient of expression, with highest levels in myocytes immediately surrounding the lesion and diminishing with increasing distance. ApoJ protein also accumulated in myocytes at the interface between degenerated myocardial tissue and the surrounding cardiac tissue. During cardiac hypertrophy that occurred without associated inflammation or cell damage, ventricular apoJ mRNA was not detected. When ischemic damage accompanied hypertrophy, apoJ was induced in the ventricular myocytes near the lesion borders. The correlation of apoJ induction with ventricular tissue damage, but not hypertrophy, suggests that apoJ is a repair response protein. We propose that apoJ functions to limit tissue injury and/or promote tissue remodeling.

A chimeric light-regulated amino acid transport system allows the isolation of blue light regulator (blr) mutants of Neurospora crassa

We have developed a system for the isolation of Neurospora crassa mutants that shows altered responses to blue light. To this end we have used the light-regulated promoter of the albino-3 gene fused to the neutral amino acid permease gene mtr. The product of the mtr gene is required for the uptake of neutral aliphatic and aromatic amino acids, as well as toxic analogs such as p-flurophenylalanine or 4-methyltryptophan. mtr trp-2-carrying cells were transformed with the al-3 promoter-mtr wild-type gene (al-3p-mtr+) to obtain a strain with a light-regulated tryptophan uptake. This strain is sensitive to p-fluorophenylalanine when grown under illumination and resistant when grown in the dark. UV mutagenesis of the al-3p-mtr(+)-carrying strain allowed us to isolate two mutant strains, BLR-1 and BLR-2 (blue light regulator), that are light-resistant to p-fluorophenylalanine and have lost the ability to grow on tryptophan. These two strains have a pale-orange phenotype and show down-regulation of all the photoregulated genes tested (al-3, al-1, con-8, and con-10). Mutations in the BLR strains are not allelic with white collar 1 or white collar 2, regulatory genes that are also involved in the response to blue light.

Local synthesis of apolipoprotein J in the eye

Apolipoprotein J (apoJ), a secretory glycoprotein known to transport lipids and to regulate terminal complement function, is present in the human eye in both aqueous and vitreous, as well as in the retina. Ocular apoJ is the product of local synthesis, rather than plasma contamination, as demonstrated by its distinct structural properties and the presence of abundant apoJ mRNA in retina and retina pigment epithelium. ApoJ mRNA is also present in mouse eye, with a developmentally regulated pattern of expression. In fetal mouse, apoJ mRNA is present in retina, lens and cornea. In contrast, adult eye apoJ mRNA is present in retina and ciliary body. We propose that apoJ is important in tissue remodeling and in stabilizing hydrophobic molecules which are required for vision and/or which would otherwise be deleterious and membrane-active.

Mouse apolipoprotein J: characterization of a gene implicated in atherosclerosis

Apolipoprotein J (apoJ), a glycoprotein associated with subclasses of plasma high density lipoproteins (HDL), was found to accumulate in aortic lesions in a human subject with transplantation-associated arteriosclerosis and in mice fed a high-fat atherogenic diet. Foam cells present in mouse aortic valve lesions expressed apoJ mRNA, suggesting local synthesis contributes to apoJ's localization in atherosclerotic plaque. As a prerequisite for elucidating the physiological function of apoJ by using a mouse model, cDNA clones representing the mouse homolog of apoJ were isolated, characterized, and sequenced. The nucleotide sequence predicts a 448 amino acid, 50,260 dalton protein. There was 81% nucleotide sequence similarity between mouse and human apoJ, and 75% similarity at the amino acid level. Mouse apoJ contains six potential N-glycosylation sites, a potential Arg-Ser cleavage site to generate alpha and beta subunits, a cluster of five cysteine residues in each subunit, three putative amphipathic helices, and four potential heparin-binding domains. Southern blot analysis indicates that the gene encompasses approximately 23 kb of DNA. Recombinant inbred strains were used to map apoJ to mouse chromosome 14, tightly linked to Mtv-11. All of the transcribed portions of the gene were cloned and analyzed, and all intron-exon boundaries were defined. The first of the 9 exons is untranslated. Single exons encode the signal peptide, the cysteine-rich domain in the alpha subunit, two potential amphipathic helices flanking a heparin-binding consensus sequence, and a potential amphipathic helix overlapping a heparin-binding domain, supporting their potential functional significance in apoJ. A variety of mouse tissues constitutively express a 1.9 kb apoJ mRNA, with apparently identical transcriptional start sites utilized in all tissues tested. ApoJ mRNA was most abundant in stomach, liver, brain, and testis, with intermediate levels in heart, ovary, and kidney. The high degree of similarity between mouse and human apoJ, in structure and distribution of the gene product, gene structure, and deposition in atherosclerotic plaques, suggests that the mouse is an ideal model with which to elucidate the role of apoJ in HDL metabolism and atherogenesis.

Apolipoprotein J is associated with paraoxonase in human plasma

Apolipoprotein J (apoJ)-containing high-density lipoproteins (HDL), isolated from human plasma by immunoaffinity chromatography, are associated with apoAI and a protein of approximately 44 kDa. In order to advance our understanding of apoJ's role in the vasculature, a comprehensive investigation was performed to identify and characterize this 44-kDa protein and to study its interaction with apoJ. The 44-kDa protein, a monomeric glycoyslated polypeptide, was identified by N-terminal sequencing as serum paraoxonase. Paraoxonase exists in two oxidation states: one contains all free cysteines while the other has one disulfide bond between Cys42 and Cys284. Northern analysis of eight human tissues shows paraoxonase message present only in the liver. The majority of apoJ/paraoxonase-HDL are 90-140 kDa; however, not all of the plasma paraoxonase is associated with apoJ. The specificity of the apoJ/paraoxonase interaction, inferred by the constant mole ratio of the two proteins in affinity-purified apoJ-HDL, is confirmed in direct binding assays. For purified proteins, there is more than a 5-fold increase in the apparent affinity of apoJ for immobilized paraoxonase as the paraoxonase coating concentration is increased from 0.5 to 2.0 micrograms/mL. Both oxidation states of paraoxonase bind to apoJ with equal affinity. Our data combined with other evidence suggest that the plasma link of apoJ with paraoxonase will be implicated as a predictor of vascular damage.

Platelet activation releases megakaryocyte-synthesized apolipoprotein J, a highly abundant protein in atheromatous lesions

Apolipoprotein J (apoJ) is an abundant glycoprotein in many biological fluids, and its constitutive high level synthesis is characteristic of many epithelial cells exposed to harsh fluids such as urine, bile, and gastric secretions. In addition, dramatic induction of apoJ occurs in cells surrounding several kinds of pathological lesions. Because platelets and circulating inflammatory cells represent critical elements in numerous pathological processes, we evaluated bone marrow cells for the presence of apoJ. Based upon messenger RNA in situ hybridization and immunofluorescent protein detection, high-level apoJ gene expression and protein accumulation occurred exclusively in mature megakaryocytes. Our results indicate that apoJ is stored in platelet granules and is released into extracellular fluid following platelet activation. Because atheromatous plaque development involves platelet aggregation and activation, we looked for and found abundant apoJ protein in advanced human atheromatous lesions. Thus, platelet sequestration and activation may lead to the rapid deployment of apoJ into sites of vascular injury. We hypothesize that platelet-derived apoJ participates in both short-term wound repair processes and chronic pathogenic processes at vascular interfaces.

Hepatic apolipoprotein J is secreted as a lipoprotein

Apolipoprotein J (apoJ) is a unique glycoprotein thought to be involved in a variety of physiological processes, including lipid transport, regulation of complement function, sperm maturation, programmed cell death, and membrane recycling. In the plasma, apoJ is associated with apoA-I in high and very high density lipoproteins. In this report we demonstrate that HepG2 human hepatocellular carcinoma cells secrete apoJ in association with a significant amount of lipid, providing unequivocal evidence that apoJ can transport lipids. The HepG2 cell line has provided important clues about the structural organization of nascent lipoprotein particles. HepG2 cell apoJ-containing lipoproteins are dense and heterogenous in size, ranging from 100 to 910 kDa. Plasma and HepG2 cell apoJ-lipoproteins differ in size distribution. Both have alpha 2 electrophoretic mobility, although their average mobilities differ within the alpha 2 region. In contrast to plasma apoJ-HDL which contain little triglyceride and which can associate with apoA-I, HepG2 cell apoJ-lipoproteins are rich in triglyceride and lack apoA-I. By implication, nascent apoJ-lipoproteins undergo plasma remodeling that results in triglyceride depletion and apoA-I association. We propose that the metabolic consequences of this remodeling play an important role in lipid homeostasis in localized tissue environments, particularly where organs are isolated from the blood by cellular barriers such as in testis and brain. In such tissues, apoJ is expressed constitutively in high level compared to other lipid transport proteins.

Structure and stability of apolipoprotein J-containing high-density lipoproteins

Apolipoprotein J (apoJ) defines a heterogeneous subclass of human plasma high-density lipoproteins (HDL) having a bimodal distribution of molecular mass of 70-90 kDa (approximately 50%) and 200 kDa or larger (approximately 50%). ApoJ-HDL are unstable in stored plasma, and must be evaluated within 24 h. All apoJ-HDL in freshly obtained plasma have alpha 2 electrophoretic mobility and are distinct from a minor subpopulation of apoAI-HDL which electrophorese in the pre beta region. Although apoAI is not associated with the majority of plasma apoJ-HDL, a small fraction of these particles also containing apoAI. There is little variation in the apoJ/apoAI mole ratio of apoJ-HDL immunoaffinity purified from the same individual on different days. In addition, there is a constant ratio among individuals, assessed for five volunteers, of 4.9 +/- 0.6. Purified apoJ added directly to apoJ-depleted plasma can interact with apoAI or with apoAI-containing lipoproteins, as evidenced by the association of apoAI with apoJ that is reisolated by immunoaffinity chromatography. The amount of apoAI associated with apoJ increases linearly with increasing amount of apoJ added, over the range of apoJ concentrations tested. No other known apolipoprotein is associated with apoJ. By two-dimensional electrophoretic analysis, the lipoproteins containing both apoJ and apoAI have approximate molecular masses of 350-400 kDa. Taken together, the results suggest that the interaction between apoJ and apoAI is physiologically important and that lipoproteins which contain both apoJ and apoAI can be produced in the plasma. ApoJ-HDL and apoJ/apoAI-HDL may have different functions and metabolic fates or may represent different stages of apoJ catabolism.

Sequence and structure of mtr, an amino acid transport gene of Neurospora crassa

The gene product of the mtr locus of Neurospora crassa is required for the transport of neutral aliphatic and aromatic amino acids via the N system. We have previously cloned three cosmids containing Neurospora DNA that complement the mtr-6(r) mutant allele. The cloned DNAs were tightly linked to restriction fragment length polymorphisms that flank the mtr locus. A 2.9-kbp fragment from one cosmid was subcloned and found to complement the mtr-6(r) allele. Here we report the sequence of the fragment that hybridized to a poly(A)+ mRNA transcript of about 2300 nucleotides. We have identified an 845-bp open reading frame (ORF) having a 59-bp intron as the potential mtr ORF. S1 nuclease analysis of the transcript confirmed the transcript size and the presence of the intron. A second open reading frame was found upstream in the same reading frame as the mtr ORF and appears to be present in the mRNA transcript. The mtr ORF is predicted to encode a 261 amino acid polypeptide with a molecular mass of 28 613 Da. The proposed polypeptide exhibits six potential alpha-helical transmembrane domains with an average length of 23 amino acids, does not have a signal sequence, and contains amino acid sequence homologous to an RNA binding motif.

Porcine pancreatic phospholipase A2 isoforms: differential regulation by heparin

Isoforms of porcine pancreatic phospholipase A2 (PLA2) can be differentially regulated by heparin. The major isoform of PLA2 can bind to heparin-Affigel and its catalytic activity can be inhibited by heparin. The interaction between this PLA2 isoform and heparin does not require calcium ion or a functional active site. The sensitivity to heparin inhibition depends on the pH, with optimum sensitivity at pH 5-7 and greatly diminished sensitivity as the pH is increased from 7 to 10. A minor isoform of porcine pancreatic PLA2 cannot bind to heparin and is resistant to heparin inhibition. The resistant isoform appears to be iso-pig PLA2. Heparin affinity chromatography therefore offers a convenient route to the isolation of structurally and functionally distinct classes of PLA2 enzymes. The existence of classes of PLA2 that can be differentially regulated by heparin may have important physiological consequences.

Purification and characterization of apolipoprotein J

Apolipoprotein J (apoJ), a unique 70-kDa component of high density lipoproteins in human plasma, consists of two disulfide-linked subunits designated apoJ alpha (34-36 kDa), and apoJ beta (36-39 kDa) which share pI values of 4.9-5.4 and which are recognized by a monoclonal antibody (mAb) 11. ApoJ and its subunits were purified to homogeneity from plasma by a combination of immunoaffinity chromatography, using mAb11 linked to Affi-Gel, and reverse-phase high performance liquid chromatography. ApoJ alpha and apoJ beta are both glycoproteins. When deglycosylated, the molecular mass of apoJ alpha is 24 kDa and that of apoJ beta is 28 kDa, suggesting that approximately 30% of the mass of each subunit is carbohydrate. The amino acid compositions of apoJ alpha and apoJ beta are very similar; however, the sequences of the first 30-amino acid residues are distinct. A comparison of peptide maps suggests that apoJ alpha and apoJ beta are not identical but share limited regions of homology. This possibility is supported by immunochemical data. Five additional mAb specific for apoJ were characterized. One of the mAb, like mAb11, reacts with both apoJ alpha and apoJ beta; the others react with apoJ alpha only. All mAb, including those which recognize both apoJ alpha and apoJ beta and those which recognize apoJ alpha only, immunoprecipitate a approximately 50-kDa protein synthesized from a liver mRNA template translated in a rabbit reticulocyte lysate. We propose that the apoJ alpha and apoJ beta subunits, which have limited homology, are derived by proteolytic cleavage of a common precursor.

A 70-kDa apolipoprotein designated ApoJ is a marker for subclasses of human plasma high density lipoproteins

A new apolipoprotein, termed apolipoprotein J (apoJ), was purified from human plasma by immunoaffinity chromatography. ApoJ is a glycoprotein consisting of disulfide-linked subunits of 34-36 and 36-39 kDa. Each subunit is glycosylated and has a pI range of 4.9-5.4. ApoJ exists in the plasma associated with high density lipoproteins (HDL) and specifically with subclasses of HDL which also contain apoAI and cholesteryl ester transfer protein activity. Immunoaffinity purified apoJ-HDL subclasses have apparent molecular masses of 80, 160, 240, 340, and 520 kDa, as determined by gradient gel electrophoresis. By negative staining electron microscopy, apoJ-HDL range in diameter from 5 to 16 nm. Fractionation of plasma by vertical gradient density centrifugation revealed apoJ-HDL in HDL2 (d 1.063-1.125 g/ml) with the majority overlapping HDL3 (d 1.125-1.21 g/ml) and very high density lipoprotein (d 1.21-1.25 g/ml). The bimodal density distribution of apoJ-HDL suggests that these subclasses have a unique metabolic relationship and may play a role in the transport of cholesterol from peripheral tissues to the liver.

Apolipoprotein J: structure and tissue distribution

The primary structure of apolipoprotein J (apoJ) was deduced by the combined strategies of protein sequencing and cDNA cloning and sequencing. ApoJ, an apolipoprotein associated with discrete subclasses of high-density lipoproteins, is encoded by a single gene in both the human and mouse genomes. ApoJ is synthesized as a 427 amino acid polypeptide that is posttranslationally cleaved at an internal bond between Arg-205 and Ser-206. The subunits of apoJ are designated apoJ alpha, corresponding to residues 1-205, and apoJ beta, corresponding to resides 206-427. The subunits are associated through disulfide bonds. Analysis of the primary structure of apoJ predicts the existence of amphiphilic helices, which may account for the association of apoJ with lipoproteins, and heparin-binding motifs in both subunits. ApoJ appears to be the human analogue of a rat protein present in high concentrations in the testis, sulfated glycoprotein 2. ApoJ mRNA (1.9 kb) is expressed in all but one tissue examined. The mRNA is present in relatively high levels in brain, ovary, testis, and liver, is less abundant in heart, spleen, lung, and breast, and is absent in T-lymphocytes. ApoJ is unique among previously characterized human apolipoproteins in its structure and tissue distribution.

Cloning of mtr, an amino acid transport gene of Neurospora crassa

Translocation of neutral aliphatic and aromatic amino acids across the plasma membrane of the ascomycete Neurospora crassa requires a functional gene product of the mtr locus. Mutations at this locus are defective in transport of those amino acids. We have cloned the mtr+ gene of Neurospora crassa from an ordered cosmid library of genomic DNA and produced a preliminary restriction map of 2.9 kilobases of genomic DNA that encompasses the mtr coding region. We have confirmed that the cloned DNA regions contain the mtr gene sequence by restriction fragment length polymorphism mapping and have determined that the cloned sequence codes for a messenger RNA transcript of approximately 1200 nucleotides in length.

Plasma cholesteryl ester-triglyceride transfer protein. The catalytic domain is a low molecular weight proteolipid

The lipid transfer protein complex (LTC) isolated from human plasma by immunoaffinity chromatography transfers cholesteryl esters (CE), triglycerides, and phosphatidylcholine (PC) between lipoproteins in vitro. The molecular weight of this lipid transfer catalyst in sodium dodecyl sulfate-polyacrylamide gels was 65,000. When resolved on a gel filtration column by high performance liquid chromatography (HPLC), LTC was composed of fractions of high (greater than 150,000) to low (18,000) molecular weight, although sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of each fraction revealed bands at Mr 65,000 (major) and 52,000 (minor). The CE and triglyceride transfer activity of the low Mr HPLC fraction (1049 nmol of triglyceride/mg/h and 244 nmol of CE/mg/h) was significantly greater than that of the high Mr HPLC fraction (15-27 nmol of triglyceride/mg/h and 20-30 nmol of CE/mg/h). The PC transfer activity of the HPLC fractions was not determined. LTC proteins were separated by dialysis in acidified chloroform:methanol solution into dialysand and dialysate proteins. The dialysate contained a low Mr proteolipid, designated the catalytic domain Cd, which catalyzed CE and triglyceride transfer at equivalent rates (11.0 versus 9.5 mumol/mg/h, respectively). PC transfer activity was approximately 10% of these levels (1.5 mumol/mg/h). The dialysand consisted of a protein, designated the transfer protein TP, which facilitated CE (3.4 mumol/mg/h) preferentially over triglyceride and PC (1.0 mumol/mg/h) transfer, and a catalytically inactive protein, designated the heparin-binding domain Hd. We propose a model of the LTC protein (based on catalytic activities, monoclonal antibody reactivities, and heparin-binding capacities of the isolated proteins) in which both Hd (approximately 13 kDa) and Cd (approximately 3 kDa) originate from a single lipid transfer protein, TP.

Isolation of parafluorophenylalanine-resistant mutants from HeLa cell cultures

This report describes a method to isolate temperature-conditional phenylalanine transport mutants from the transformed human cell line HeLa. Using ultraviolet light as a mutagenic agent and DL-parafluorophenylalanine (PFPA), a poisonous analogue of L-phenylalanine, as a selective agent, mutagenized cells were selected for survival in the presence of PFPA at a temperature of 39 degrees C. Survivors of the mutagenesis and selection procedures were removed from the culture dishes by trypsin and cloned at a temperature of 35 degrees C. Seven of these lines isolated demonstrated continued resistance to PFPA at 39 degrees C. These lines were tested for uptake of L-phenylalanine at an external concentration of 100 microM and for continued resistance to PFPA at two concentrations. Cells were tested at 35 and at 39 degrees C. The data were compared to those obtained for the parental HeLa cell line under identical conditions. The seven mutant cell lines demonstrated varying resistances to PFPA and varying levels of accumulation of L-phenylalanine when tested at 35 and 39 degrees C. Three mutant lines were additionally tested for L-phenylalanine tRNA charging levels and for transport of L-arginine. The lines had parental cell levels of tRNA charging and L-arginine transport which suggest that the induced genetic defect affects a specific L-phenylalanine transport system.

Location of the 18/28S ribosomal RNA genes in two Hawaiian Drosophila species by monoclonal immunological identification of RNA.DNA hybrids in situ

Using both heterologous rabbit antisera and mouse monoclonal antibody to RNA.DNA hybrids, we have mapped the in situ hybridization locus of the 18/28S ribosomal RNA fraction to a single large band on polytene autosome 3 in Drosophila heteroneura and Drosophila silvestris. This portion of the chromosome is not physically connected with the nucleolus at the end of larval salivary gland development. In mature larvae, little or no hybridization with the material in the nucleolus can be detected. In younger larvae, hybridization of the ribosomal RNA probe to the nucleolus itself can be observed. The chromosome 3 locus is the only band in the polytene genome that shows variation in size and intensity of staining between populations and species. The interband chromosome regions that are immediately distal or proximal to the 18/28S rRNA locus have been involved in a disproportionately large number of natural inversion breaks observed in the euchromatic portion of the polytene chromosome. In 104 species of Hawaiian Drosophila in which chromosome 3 polytene sequences have been determined, 15 breaks occur in these two regions. On a random basis, only one such break is expected. We propose that this locus may be flanked by substantial heterochromatic blocks which are not represented in the salivary gland chromosome.

Strain-Softening Instability Model for the San Fernando Earthquake

Changes in the ground elevation observed before and immediately after the 1971 San Fernando, California, earthquake are consistent with a theoretical model in which fault zone rocks are strain-softening after peak stress. The model implies that the slip rate of the fault increased to aboul 0.1 meter per year near the focus before the earthquake.

A proposal that malignancies represent genetic changes in cell surface RNA

A great number of experimental studies have now been performed with malignant cells. The mass of data generated presents a confusing and often apparently contradictory picture of the fundamental molecular biological defect which most scientists sense must be the cause of transformation of a normal cell into a malignant one. This paper proposes the hypothesis that RNA on the exterior of the cell membrane organizes the various functional molecular aggregates such as transport complexes (permeases), lectin receptor sites, transmembrane microfilament attachment sites, hormone receptor complexes, and the elusive contact inhibition components. Furthermore it is proposed that a defect in the production of or competition for the assembly of exterior-organizer RNA (exoRNA) complexes is the primary molecular defect inherent in all malignancies. The defect could be caused by deletion of a chromosome region producing or controlling exoRNA, mutation of the genes involved in exoRNA production or by insertion of viral genetic material into the genome thereby producing an incomplete viral RNA (vRNA) which competes for exoRNA binding sites in cell surface complexes. Such changes would be genetically transmitted and could represent a range of genetic change between chromosomal deletion and point mutation. Several experiments are suggested to directly test the hypothesis.

New class of ribonucleic acid in Neurospora associated with the outer cell envelope

Extrinsic ribonucleic acid (RNA) can be isolated from a KCl extract of Neurospora crassa conidial cell surface products. It is heterogeneous in size. The bulk of this RNA travels as a broad band, trailing the 5.8S ribosomal marker RNA on electrophoretic gels. The extrinsic RNA, when denatured, exhibites several discrete lengths between 50,000 and 130,000 daltons. Melting profiles confirm the heterogeneity of the RNA and indicate that 58% of the bases are involved in hydrogen bonding. Analyses of alkaline hydrolysis products reveal no extensive methylation and few or none of the unusual bases present in transfer RNA. The bases are present in approximately equivalent amounts. Extrinsic RNA represents 2 to 3% of the total cellular RNA. Since this membrane-associated class of RNA does not resemble ribosomal RNA, messenger RNA, or transfer RNA and since it is extracted from the cell exterior by methods used to remove extrinsic membrane molecules, we have designated it extrinsic RNA.

Effects of ribonuclease A on amino acid transport in Neurospora crassa

Incubation of Neurospora crassa conidia with ribonuclease (RNase) A reduces transport of L-phenylalanine by those cells. Under similar conditions, oxidized RNase A, RNase T1, and RNase T2 do not have this effect. Incubation of conidia with active RNase covalently attached to polyacrylamide beads reduces L-phenylalanine transport. This indicates that the site of enzymatic action is at the cell surface. At the lower concentration of enzyme used in this study, incubation with RNase A reduces transport of L-phenylalanine by the general (G) amino acid permease. Increasing the enzyme concentration results in reduction of transport by the neutral aromatic (N)-specific permease. The increased transport activity that accompanies onset of conidial germination is also sensitive to incubation with RNase A. Application of the enzyme to actively transporting cells does not release amino acid transported prior to enzyme addition. Cells cultured on media supplemented with [2-14C] uridine release isotopic activity after RNase A incubation. Analogous treatments with Pronase, RNase T1, RNase T2, or deoxyribonuclease I do not release isotope activity. Pronase treatment does reduce L-phenylalanine transport. Incubation of conidia with RNase A also inhibits germination of those conidia.

Disruption of an amino acid transport mutant of Neurospora crassa by KCl

A double amino acid transport-deficient mutant (Pm (-)NB) of Neurospora crassa is shown to be altered in the molecular structure of its cell wall or membrane. This alteration was revealed by a high degree of cellular disruption and cell-cell interaction following extraction by a high molar concentration of KCl.