Biosynthesis and molecular cloning of sulfated glycoprotein 1 secreted by rat Sertoli cells: sequence similarity with the 70-kilodalton precursor to sulfatide/GM1 activator

Sulfated glycoprotein 1 (SGP-1) is one of the abundant proteins secreted by rat Sertoli cells. Pulse-chase labeling shows that SGP-1 is synthesized as a cotranslationally glycosylated 67-kilodalton (kDa) precursor which is posttranslationally modified to a 70-kDa form before secretion to the extracellular space. A plasmid cDNA library was constructed from immunopurified mRNA, and two overlapping clones coding for the entire protein coding sequence were isolated. The cDNAs represent 27 nucleotides of 5' noncoding sequence, 1554 nucleotides of coding sequence, and 594 nucleotides of 3' noncoding sequence. The derived SGP-1 sequence contains 554 amino acids and has a molecular weight of 61,123. Four potential N-glycosylation sites occur within the sequence. An internal region of SGP-1 shows 78% sequence identity with the 67 N-terminal amino acids described for human sulfatide/GM1 activator (SAP-1). Sequence comparisons suggest that SGP-1 is the precursor to sulfatide/GM1 activator; however, the secretion of the protein from Sertoli cells is distinct from the proteolytic processing and lysosomal compartmentalization which have been described for human fibroblasts. The presence of internal sequence similarity suggests that three additional binding sites may occur in SGP-1. Northern blots show similar levels of expression for the 2.6-kilobase SGP-1 mRNA in all tissues examined. The site of SGP-1 synthesis in testis was localized to Sertoli cells by immunofluorescence and in situ hybridization.     

Structure of the lysosomal sphingolipid activator protein 1 by homology with influenza virus neuraminidase

The sphingolipid activator protein 1 (SAP-1) increases the rate of hydrolysis of sphingolipids in the lysosome by apparently bringing together the substrate and the corresponding hydrolytic enzyme. This implies specific recognition of both the substrate and enzyme by SAP-1. However, binding domains in SAP-1 and recognition mechanisms involved are unknown. Amino acid sequence comparison of SAP-1 with influenza virus neuraminidase (EC 3.2.1.18, FLU NA) indicates that functional amino acid residues in or near the sialic acid binding site of FLU NA are also found at equivalent positions in the first 48 N-terminal amino acids of SAP-1. This region of homology allows to propose folding of the SAP-1 polypeptide chain by comparison with known crystallographic structure of FLU NA and identify a potential domain for lysosomal enzyme recognition through sialic acid binding. There is also a region of 10 amino acid residues near the C-terminal end of SAP-1 which has a strong propensity to form an alpha-helix with amphiphilic properties of lipid-binding helices. This domain in SAP-1 is probably responsible for the lipid(substrate)-binding function of SAP-1.     

Mouse protamine 2 is synthesized as a precursor whereas mouse protamine 1 is not.

The nuclei of mouse spermatozoa contain two protamine variants, mouse protamine 1 (mP1) and mouse protamine 2 (mP2). The amino acid sequence predicted from mP1 cDNAs demonstrates that mP1 is a 50-amino-acid protein with strong homology to other mammalian P1 protamines. Nucleotide sequence analysis of independently isolated, overlapping cDNA clones indicated that mP2 is initially synthesized as a precursor protein which is subsequently processed into the spermatozoan form of mP2. The existence of the mP2 precursor was confirmed by amino acid composition and sequence analysis of the largest of a set of four basic proteins isolated from late-step spermatids whose synthesis is coincident with that of mP1. The sequence of the first 10 amino acids of this protein, mP2 precursor 1, exactly matches that predicted from the nucleotide sequence of cDNA and genomic mP2 clones. The amino acid composition of isolated mP2 precursor 1 very closely matches that predicted from the mP2 cDNA nucleotide sequence. Sequence analysis of the amino terminus of isolated mature mP2 identified the final processing point within the mP2 precursor. These studies demonstrated that mP2 is synthesized as a precursor containing 106 amino acids which is processed into the mature, 63-amino-acid form found in spermatozoa.     

Human serum amyloid A (SAA): biosynthesis and postsynthetic processing of preSAA and structural variants defined by complementary DNA

To study structural variants of human serum amyloid A (SAA), an apoprotein of high-density lipoprotein, complementary DNA clones were isolated from a human liver library with the use of two synthetic oligonucleotide mixtures containing sequences that could code for residues 33-38 and 90-95 of the protein sequence. The SAA-specific cDNA clone (pA1) contains the nucleotide sequence coding for the mature SAA and 10 amino acids of the 18-residue signal peptide. It also includes a 70 nucleotide long 3'-untranslated region and approximately 120 bases of the poly(A) tail. The derived amino acid sequence of pA1 is identical with the alpha form of apoSAA1. A fragment of pA1 containing the conserved (residues 33-38) region of SAA also hybridized with RNA from human acute phase liver and acute phase stimulated, but not unstimulated, mouse and rabbit liver. In contrast, a fragment corresponding to the variable region hybridized to a much greater extent with human than with rabbit or murine RNA. Human acute phase liver SAA mRNA (approximately 600 nucleotides in length) directs synthesis of preSAA (Mr 14 000) in a cell-free translating system. In a Xenopus oocyte translation system preSAA is synthesized and processed to the mature Mr 12 000 product. The complete 18 amino acid signal peptide sequence of preSAA was derived from sequencing cDNA synthesized by "primer extension" from the region of SAA mRNA corresponding to the amino terminus of the mature product. Two other SAA-specific cDNA clones (pA6 and pA10) differed from pA1 in that they lack the internal PstI restriction enzyme site spanning residues 54-56 of pA1.(ABSTRACT TRUNCATED AT 250 WORDS)     

The isolation of cDNA clones for human apolipoprotein E and the detection of apoE RNA in hepatic and extra-hepatic tissues.

We have isolated cDNA clones coding for apolipoprotein E (apoE) from a cDNA library prepared from adult human liver mRNA. Mixtures of 128 different oligonucleotides, 17 residues long were synthesised to be complementary to regions of the mRNA corresponding to amino acids 1-6 and 151-156. Five independent apoE clones were selected by direct screening of 5000 recombinants with the two oligonucleotide mixtures. Two overlapping clones contain the 3'-untranslated sequence, the entire coding sequence and an additional 30 bases 5' to the amino terminus of the mature protein. The DNA sequence has been determined spanning the known sites of amino acid substitutions which account for the observed protein polymorphism of apoE. Using the clones as probes in Northern blot analysis of total human liver and kidney RNAs and leucocyte poly(A)+ RNA we have detected a single species of mRNA in liver and kidney of 1.2 kb and two larger species in leucocyte RNA. The level of expression of the mRNA in kidney is approximately 10% of that in liver while the level of apoE RNA sequences in the leucocytes is less than 1% of that in the liver.     

Partial amino acid sequence of human thrombospondin as determined by analysis of cDNA clones: homology to malarial circumsporozoite proteins

A lambda gt 11 library prepared from human umbilical vein endothelial cell RNA was screened for cDNAs encoding thrombospondin. Reagents included a monospecific antibody to human thrombospondin and a mixture of four synthetic oligodeoxyribonucleotides derived from an amino acid sequence near the NH2 terminus of mature human thrombospondin. Two series of cDNA clones coding for sequences at the 5' and 3' ends of thrombospondin mRNA, respectively, were isolated. The nucleotide sequence of a 1.3-kilobase (kb) 5' clone (lambda TS-33) coded for 99 bases of 5' untranslated RNA, a signal peptide of 18 amino acids, and the first 379 amino acids of thrombospondin. Northern blot analysis with lambda TS-33 detected a single mRNA species of approximately 6.0 kb in rat aortic smooth muscle cell RNA. Thrombospondin mRNA levels increased rapidly, but transiently, in quiescent smooth muscle cells treated with platelet-derived growth factor. The kinetics of this response were very similar to those of the thrombospondin protein to this growth factor. There was significant homology in amino acid sequence between thrombospondin and a conserved region in the circumsporozoite protein of two malarial sporozoites. This region of thrombospondin may therefore represent a potential recognition site for a cell surface thrombospondin receptor.     

Isolation and characterization of cDNA clones encoding the murine NAD-dependent methylenetetrahydrofolate dehydrogenase-methenyltetrahydrofolate cyclohydrolase

Forty cDNA clones corresponding to the bifunctional NAD-dependent methylenetetrahydrofolate dehydrogenase-methenyltetrahydrofolate cyclohydrolase enzyme were isolated from a mouse lambda gt11 library. Two classes of cDNA clones were shown by Northern analysis to correspond to the two mRNA species of 1.7 and 2.0 kilobases present in transformed cells but not in normal tissues and that apparently are derived from alternate polyadenylation signals. The 1050-base pair coding region encodes a protein of 350 amino acids which contains a putative mitochondrial-targeting signal peptide of 34 amino acids following the initiator methionine. The 20 amino acids immediately following the signal peptide correspond exactly to those determined by sequence analysis of the amino terminus of the purified protein. The derived amino acid sequence of the NAD-dependent dehydrogenase-cyclohydrolase shows extensive homology with the corresponding amino-terminal sequence of the trifunctional NADP-dependent dehydrogenase-cyclohydrolase-synthetase enzyme from human cells (approximately 40%), yeast cytosol (approximately 36%), and yeast mitochondria (approximately 45%).     

Plasma cell membrane glycoprotein PC-1. cDNA cloning of the human molecule, amino acid sequence, and chromosomal location

The murine cell membrane glycoprotein PC-1 is a homodimer with restricted tissue distribution, being first characterized in plasma cells. We now describe the isolation of cDNA clones encoding the human homolog of the murine PC-1 protein, its complete amino acid sequence, and its chromosomal location. Overall, the amino acid sequence of the human protein is about 80% identical to the murine protein, although the extent of homology varies in different domains. It had not been possible to assign a definitive amino terminus to the murine protein. Comparison of the murine and human sequence necessitates reassignment of the amino terminus, resulting in a cytoplasmic tail of 24 amino acids rather than 58 amino acids as previously published for the mouse. The sequence of several independently obtained cDNA clones indicates that the 3' end of the mRNA is subject to alternative splicing. Southern blots suggest a single copy gene. In situ chromosomal hybridization localizes the gene for human PC-1 to chromosome 6q22-q23, a common site for deletions in human lymphoid neoplasia.     

Evidence for inserted sequences in the head region of nonmuscle myosin specific to the nervous system. Cloning of the cDNA encoding the myosin heavy chain-B isoform of vertebrate nonmuscle myosin.

The complete amino acid sequence of a vertebrate nonmuscle myosin heavy chain-B isoform (MHC-B, 1976 amino acids, 229 kDa) has been deduced by using cDNA clones from chicken brain libraries. The chicken nonmuscle MHC-B shows overall similarity in primary structure to other MHCs in the areas contributing to the ATP-binding site and actin-binding site. Similar to other nonsarcomeric MHC IIs, there is a short uncoiled tail sequence at the carboxyl terminus of the molecule. It is in the uncoiled tail sequence that the greatest number of differences in amino acids sequence between MHC-A and B were found, which allowed generation of isoform-specific antibodies. These antibodies were used to determine the relative content of MHC-A and MHC-B in various tissues. During the cloning of the cDNA encoding chicken brain MHC-B, we found a 63-nucleotide insertion encoding 21 amino acids located in the head region of the MHC near to the actin-binding site and a 30 nucleotide insertion encoding 10 amino acids near to the ATP-binding site. Analysis using S-1 nuclease showed that both inserts are expressed in a tissue-dependent manner; mRNA containing the inserts is present in tissues of the nervous system, but is absent from other non-muscle cells, which contain the noninserted isoform of MHC-B. Similar inserts were found in corresponding positions in human cerebellar mRNA. Antibodies raised against a peptide synthesized based on the 21 amino acid insert found in chickens recognize a MHC isoform in the same tissues that are enriched for the mRNA. These insertions appear to be a mechanism for generating additional MHC-B isoforms specific to the nervous system.     

The activator protein for glucosylceramide beta-glucosidase from guinea pig liver. Improved isolation method and complete amino acid sequence

beta-Glucosidase activator (SAP-2) is a family of heat-stable, acidic glycoproteins which stimulate enzymatic hydrolysis of glucosylceramide. In this study, we improved the purification method and found that SAP-2 is highly heterogeneous. A hot water extract of frozen guinea pig liver was fractionated by ammonium sulfate sedimentation, then chromatographed with DEAE-Sephacel, Sephadex G-75, and concanavalin A-Sepharose. A fraction binding to concanavalin A-Sepharose was purified further with a C4 high performance liquid chromatography reverse phase column. This yielded several peaks, the main one of which was studied. The specific activity of the purified SAP-2 was 35 units/micrograms (1 unit produces 50% stimulation of a basal glucosidase preparation). N-terminal amino acid sequencing showed that this preparation is a mixture of polypeptides differing in the presence or absence of one or two of the end amino acids. The complete amino acid sequence of the 81 residues in SAP-2 has been determined. Comparison of the sequence of guinea pig SAP-2 with the sequence of human sphingomyelinase activator revealed 58% homology and quite similar hydropathy profiles. Both proteins possess a highly hydrophilic region around Asn-22, which is glycosylated, and 6 cysteine residues, in oxidized form, located in the same positions. Comparison with the published nucleotide sequence for the precursor form of the human activator protein for sulfatide sulfatase (SAP-1) suggested that this activator also has a possibly glycosylated Asn and 6 Cys residues at similar positions, although the remainder of the molecule is somewhat different. Examination of another region of the precursor's nucleotide sequence, assuming a few changes in the identifications, revealed the presence of the sphingomyelinase activator. It appears that two or more activators are derived from a single precursor protein. Marked homologies were seen also with a lung surfactant protein and a sulfated glycoprotein from Sertoli cells.     

Cloning of leptin cDNA and assignment to the long arm of chromosome 5 in the marsupial Sminthopsis crassicaudata

We have isolated and sequenced full-length cDNA clones for leptin in the dasyurid marsupial Sminthopsis crassicaudata (fat-tailed dunnart). Southern and in situ hybridisation data indicated a single leptin gene in the S. crassicauda- ta genome, localised to arbitrary chromosome bands 5q24--> q31 on the long arm of chromosome 5, the short-arm terminus of which bears the only nucleolar organising region. The nucleotide sequence of the cDNAs revealed that the primary translation product of S. crassicaudata leptin is composed of 167 amino acid residues, with a potential signal peptide of 21 residues. The mature protein of 146 amino acids is 82% similar to both the mouse and human proteins and is predicted to have a molecular weight of 16.26 kDa. Northern blot analysis revealed that the corresponding mRNA is approximately 3.9 kb in size and is expressed only in white adipose tissue of this marsupial species. Evolutionary analyses indicate that S. crassicaudata leptin cDNA has evolved at a significantly faster rate than cDNAs from eutherian mammals.     

Isolation and characterization of the complete complementary and genomic DNA sequences of human serum amyloid P component

Complementary and genomic DNA clones corresponding to the human serum amyloid P component (SAP) mRNA have been isolated and analyzed. The nucleotide sequences of the cDNA and the corresponding regions of the genomic SAP DNA reported here were identical, and revealed that after coding for a signal peptide of 19 amino acids and the first two amino acids of the mature SAP protein, there is one small intron of 115-base pairs (bp), followed by a nucleotide sequence coding for the remaining 202 amino acid residues. The SAP gene has an ATATAAA sequence 29-bp upstream from the cap site, but there is no CAAT box-like sequence. A possible polyadenylation signal sequence, ATTAAA, was found to be located 28-bp upstream from the polyadenylation site. A comparison of the genomic SAP DNA sequence with that of human C-reactive protein (CRP) revealed a striking overall homology which was not uniform: several highly conserved regions were bounded by non-homologous regions. This comparison provides further support for the hypothesis that SAP and CRP are products of a gene duplication event.     

Cloning and sequence analysis of adrenodoxin reductase cDNA from bovine adrenal cortex

cDNA clones for bovine adrenodoxin reductase were isolated, and the primary structure of the enzyme precursor was deduced from their nucleotide sequences. The precursor consists of 492 amino acids including an extrapeptide of 32 amino acids at the amino terminus. The extrapeptide is hydrophilic [corrected] and rich in arginine. The amino terminal sequence of the precursor is homologous with that of the adrenodoxin precursor. A possible FAD- or NADPH-binding site is present near the amino terminus of the mature enzyme.     

Genetic cause of a juvenile form of Sandhoff disease. Abnormal splicing of beta-hexosaminidase beta chain gene transcript due to a point mutation within intron 12

Abnormal beta-hexosaminidase beta chain cDNA clones were isolated from a library constructed from cultured fibroblasts of a patient with a juvenile form of Sandhoff disease (genetic beta-hexosaminidase A and B deficiency). Sequence analysis of a cDNA clone isolated from these fibroblasts contained an extra 24-base segment between exons 12 and 13. This segment was identified as the 3' terminus of intron 12. The remainder of the coding sequence was completely normal. The same 24-base insertion was found in four additional clones by sequencing. Restriction mapping analysis of seven other clones was consistent with the presence of the same 24-base intron 12 segment. This insertion is inframe and adds 8 amino acids between amino acids 491 and 492 of the primary sequence of the normal enzyme protein. It is located only 5 amino acids away from a possible glycosylation site. The finding is consistent with the slightly larger than normal size of the beta subunit precursor protein observed by immunoprecipitation. No normally spliced mRNA was detected. Gene amplification by the polymerase chain reaction and subsequent sequencing of genomic DNA indicated that the patient was a compound heterozygote. In one allele, there was a single nucleotide transition from normal G to A at 26 bases from the 3' terminus of intron 12. This mutation generates a consensus sequence for the 3' splice site for an intron, CAG/G, and thus explains the abnormal mRNAs that retain 24 bases of the 3' terminus of intron 12. The intron 12 and flanking exons 12 and 13 sequences were normal in the other allele, which is a priori also genetically abnormal. The other mutant allele therefore is likely to be of an mRNA-negative type.     

Cloning of the grass carp growth hormone cDNA

We have constructed a cDNA library in lamda gt11 using mRNA isolated from the pituitary glands of the grass carp (Ctenopharyngodon idellus). Based on the published sequence of the rainbow trout growth hormone cDNA, we synthesized two oligonucleotide probes. One of these hybridized strongly with a specific mRNA fragment from the grass carp pituitary. Using this probe, we have isolated six positive clones carrying an insert of approximately 1.2 Kb. By restriction enzyme digestion, all the clones were determined to be identical. Sequence determination on one of them indicated that it has an open reading frame coding for 210 amino acids. Both the nucleotide and translated amino acid sequence are highly homologous to those of the salmon growth hormone and the common carp. A putative signal peptide consisting of hydrophobic amino acids can be identified at the 5' end of the sequence. A polyadenylation signal, ATTAAA, was also present 12 base upstream from the poly A tail.     

Analysis of cDNA encoding the hypoxanthine-guanine phosphoribosyltransferase (HGPRTase) of Schistosoma mansoni; a putative target for chemotherapy.

Because of the lack of de novo purine biosynthesis, hypoxanthine-guanine phosphoribosyltransferase (HGPRTase) is a critical enzyme in the purine metabolic pathway of the human parasite, Schistosoma mansoni. Using a cDNA clone encoding mouse HGPRTase and subsequently a synthetic oligonucleotide derived from sequencing a clone of genomic DNA, two clones were isolated from an adult schistosome cDNA library. One clone is 1.374 Kilobases (Kb) long and has an open reading frame of 693 bases. The deduced 231 amino acid sequence has 47.9% identity in a 217 amino acid overlap with human HGPRTase. Northern blot analysis indicates that the full length of mRNA for the S. mansoni HGPRTase is 1.45-1.6 Kb. Analysis of the primary structures of the putative active site for human and parasite enzymes reveal specific differences which may eventually be exploitable in the design of drugs for the treatment of schistosomiasis.     

Detection of a point mutation in sphingolipid activator protein-1 mRNA in patients with a variant form of metachromatic leukodystrophy

The lysosomal degradation of sulfatide requires the specific enzyme, arylsulfatase A, as well as a heat stable protein called sphingolipid activator protein-1 (SAP-1). While most patients with metachromatic leukodystrophy have defects in arylsulfatase A, some patients have defects in SAP-1. SAP-1 is coded for by a gene on human chromosome 10 that also codes for three other proposed SAP. Examination of the cDNA from two siblings with SAP-1 deficiency revealed a point mutation of nucleotide #650 (counting from the initiation ATG) which is in the SAP-1 coding domain. This C to T transition changed the codon from threonine (ACC) to one coding for isoleucine (ATC). This eliminated the only glycosylation site in mature SAP-1 and could explain the findings made at the protein level.