Pathways for protection from noise induced hearing loss

There is increasing evidence that at least one function of both the medial and the lateral olivocochlear efferent systems is to provide adjustment of the set point of activity in their postsynaptic target, the outer hair cells and afferent processes, respectively. New results, summarized in this review, suggest that both efferent systems can provide protection from noise through this mechanism. There are also intracellular pathways that can provide protection from noise-induced cellular damage in the cochlea. This review also summarizes new results on the pathways that regulate and react to levels of reactive oxygen species in the cochlea as well as the role of stress pathways for the heat shock proteins and for neurotrophic factors in protection, recovery and repair.

MACF1 gene structure: a hybrid of plectin and dystrophin

Mammalian MACF1 (Macrophin1; previously named ACF7) is a giant cytoskeletal linker protein with three known isoforms that arise by alternative splicing. We isolated a 19.1-kb cDNA encoding a fourth isoform (MACF1-4) with a unique N-terminus. Instead of an N-terminal actin-binding domain found in the other three isoforms, MACF1-4 has eight plectin repeats. The MACF1 gene is located on human Chr 1p32, contains at least 102 exons, spans over 270 kb, and gives rise to four major isoforms with different N-termini. The genomic organization of the actin-binding domain is highly conserved in mammalian genes for both plectin and BPAG1. All eight plectin repeats are encoded by one large exon; this feature is similar to the genomic structure of plectin. The intron positions within spectrin repeats in MACF1 are very similar to those in the dystrophin gene. This demonstrates that MACF1 has characteristic features of genes for two classes of cytoskeletal proteins, i.e., plectin and dystrophin.

Glial cell line-derived neurotrophic factor (GDNF) and its receptor complex are expressed in the auditory nerve of the mature rat cochlea

Glial cell line-derived neurotrophic factor (GDNF) is a survival factor for many neuronal cell types which signals through a heterodimer receptor consisting of GDNF-family receptor alpha 1 (GFRalpha-1) and Ret (rearranged during transformation). GDNF expression has previously been reported in the inner hair cells of the rat cochlea, with expression of GFRalpha-1 but not Ret in the cell bodies of the auditory nerve (spiral ganglion cells), using in situ hybridization. The present study used reverse transcription-polymerase chain reaction (RT-PCR), and immunocytochemistry to examine GDNF, GFRalpha-1 and Ret in the adult rat auditory nerve. Semi-quantitative RT-PCR showed expression of GDNF and the two receptor components, GFRalpha-1 and Ret, in the modiolar subfraction of the cochlea containing spiral ganglion cells. A shorter mRNA splice variant for GDNF was also detected. Immunocytochemistry showed immunostaining in the modiolus for GDNF, GFRalpha-1 and Ret that was confined to spiral ganglion cells. When RT-PCR expression levels were compared to the expression in the substantia nigra, GFRalpha-1 expression levels were similar, Ret mRNA was lower in the modiolus and GDNF expression was higher in the modiolus. However, when GDNF was further assessed using Western blot, while GDNF protein was found in the modiolus it was at lower levels than in substantia nigra tissue. These results demonstrate that GDNF and both of its receptor components are found in spiral ganglion cells of the adult rat cochlea. Along with the previous report of GDNF in inner hair cells, these new results provide a basis for the role of GDNF as a survival factor for the auditory nerve, as suggested by previous studies.

Differential display and gene arrays to examine auditory plasticity

Differential gene expression forms the basis for development, differentiation, regeneration, and plasticity of tissues and organs. We describe two methods to identify differentially expressed genes. Differential display, a PCR-based approach, compares the expression of subsets of genes under two or more conditions. Gene arrays, or DNA microarrays, contain cDNAs from both known genes and novel genes spotted on a solid support (nylon membranes or glass slides). Hybridization of the arrays with RNA isolated from two different experimental conditions allows the simultaneous analysis of large numbers of genes, from hundreds to thousands to whole genomes. Using differential display to examine differential gene expression after noise trauma in the chick basilar papilla, we identified the UBE3B gene that encodes a new member of the E3 ubiquitin ligase family (UBE3B). UBE3B is highly expressed immediately after noise in the lesion, but not in the undamaged ends, of the chick basilar papilla. UBE3B is most similar to a ubiquitin ligase gene from Caenorhabditis elegans, suggesting that this gene has been conserved throughout evolution. We also describe preliminary experiments to profile gene expression in the cochlea and brain with commercially available low density gene arrays on nylon membranes and discuss potential applications of this and DNA microarray technology to the auditory system.

Human COX6A1 gene: promoter analysis, cDNA isolation and expression in the monkey brain

The human COX6A1 gene encodes the ubiquitous isoform of cytochrome c oxidase (COX) subunit VIa (VIa-L), and is located in a CpG island on chromosome 12q24.2. We compared the COX6A1 gene with the published cDNA and several ESTs and concluded that subunit COX VIa-L is synthesized as a preprotein, as are other COX subunits. The same transcription start sites were identified by primer extension analysis of human brain and lymphoblastoid RNA. Analysis of the COX6A1 promoter revealed several conserved sequence elements found in other COX genes, namely binding sites for nuclear respiratory factor 1 (NRF-1), nuclear respiratory factor 2/GA binding protein (NRF-2/GABP), and ying-yang protein 1 (YY1). These conserved elements were shown to bind nuclear proteins from HeLa nuclear extracts. COX6A1 cDNA was isolated from a human brain cDNA library, and the sequence was identical to that of human liver. The expression of this gene was demonstrated by in-situ hybridization in monkey brain sections with our human brain cDNA. Monocular impulse blockade in adult monkeys induced a downregulation of COX6A1 expression in deprived visual neurons, suggesting that this subunit gene is regulated by neuronal activity.

Expression of the GDNF family members and their receptors in the mature rat cochlea

The GDNF family comprises glial cell line-derived neurotrophic factor (GDNF) and the related proteins neurturin, artemin and persephin, which form a subgroup of the TGF-beta superfamily of growth factors. All four neurotrophic factors provide neuronal cell protection and cell survival. GDNF expression was found in the cochlea, and GDNF has been shown to be effective for inner ear protection from drugs and noise-induced insults. As the other members of the GDNF family also provide protective effects on neuronal cells, they may play important roles in the inner ear. We used RT-PCR to examine the expression of GDNF, neurturin, artemin, persephin and their receptors GFRalpha-1, GFRalpha-2, GFRalpha-3 and c-ret in whole rat cochlea as well as in functionally different subfractions (modiolus and sensorineural epithelium/lateral wall) and compared the levels of neurotrophin and receptor mRNAs in the cochlea to those in substantia nigra brain region. Our results demonstrate the expression of all GDNF family members and their receptors in cochlea and substantia nigra. However, the relative levels of mRNA were different for several genes tested in subfractions of the cochlea and/or compared to expression levels in substantia nigra. The presence of mRNA for all four members of the GDNF family and their preferred receptors in the rat cochlea suggests potential functional importance of these neurotrophic factors as protection and survival factors in the inner ear.

A novel mouse kinesin of the UNC-104/KIF1 subfamily encoded by the Kif1b gene

Kinesin and kinesin-related proteins are microtubule-dependent motor proteins that transport organelles. We have cloned and sequenced a full-length 9924 bp mouse cDNA for a new kinesin of the UNC-104/KIF1 subfamily. Northern blot analysis of mouse RNAs detected high levels of a 10 kb mRNA in brain and eye, but lower levels in other tissues. Human RNA dot-blot analysis detected this mRNA in all tissues examined, although at different levels. The overall structure of the new kinesin (predicted size 204 kDa) was most similar to mouse KIF1A; however, 2.1 kb of the 5' portion of the cDNA were identical to the published sequence for KIF1B (Nangaku, M., Sato-Yoshitake, R., Okada, Y., Noda, Y., Takemura, R., Yamazaki, H., Hirokawa, N., 1994. KIF1B, a novel microtubule plus end-directed monomeric motor protein for transport of mitochondria. Cell 79, 1209-1220). We localized the Kif1b gene to the distal end of mouse Chromosome 4 by haplotype analysis of an interspecific backcross from The Jackson Laboratory. We had previously mapped the gene for the novel kinesin to the same location (Gong, T.-W.L., Burmeister, M., Lomax, M.I., 1996b. The novel gene D4Mille maps to mouse Chromosome 4 and human Chromosome 1p36. Mamm. Genome 7, 790-791). We conclude, therefore, that the Kif1b gene generates two major kinesin isoforms by alternative splicing. The shorter 7.8 kb mRNA encodes a 130 kDa kinesin, KIF1Bp130, whereas the 10 kb mRNA encodes a 204 kDa kinesin, KIF1Bp204. In addition, alternative splicing of two exons in the conserved region adjacent to the motor domain generates four different isoforms of each kinesin, leading to eight kinesin isoforms derived from the Kif1b gene.

The 5' region of the COX4 gene contains a novel overlapping gene, NOC4

We identified a novel human gene, NOC4 (Neighbor Of COX4), located 5' to COX4, the gene for cytochrome c oxidase subunit IV, on Chr 16q32-ter. Transcripts from this gene were identified among human expressed sequence tags. A full-length, 1.06-kb human retinal NOC4 cDNA encoded a 24-kDa, 210-amino acid hypothetical protein of unknown function. Northern hybridization analysis of human RNAs from various tissues detected NOC4 transcripts of 2.2 and 1.4 kb in all tissues examined, suggesting that NOC4 expression is ubiquitous. Transcription of both the COX4 and NOC4 genes initiates within a 250-bp intergenic promoter and occurs in opposite directions. The bidirectional promoter is G + C-rich, lacks TATA and CCAAT elements, and contains multiple potential binding sites for Sp1 and NRF-2/GABP. Two of the NRF-2/GABP sites are located within 14-bp direct repeats, a conserved feature of mammalian COX4 promoters. The NOC4 and COX4 genes are also linked in the rat, mouse, and bovine genomes. A NOC4-GFP fusion protein is located in both the nucleus and the cytoplasm, including the mitochondria.

A gene upregulated in the acoustically damaged chick basilar papilla encodes a novel WD40 repeat protein

The chick WDR1 gene is expressed at higher levels in the chick basilar papilla after acoustic overstimulation. The 3.3-kb WDR1 cDNA encodes a novel 67-kDa protein containing nine WD40 repeats, motifs that mediate protein-protein interactions. The predicted WDR1 protein has high sequence identity to WD40-repeat proteins in budding yeast (Saccharomyces cerevisiae), two slime molds (Dictyostelium discoideum and Physarum polycephalum), and the roundworm (Caenorhabditis elegans). The yeast and P. polycephalum proteins bind actin, suggesting that the novel chick protein may be an actin-binding protein. Sequence database comparisons identified mouse and human cDNAs with high sequence identity to the chick WDR1 cDNA. The mouse Wdr1 and human WDR1 proteins showed 95% sequence identity to each other and 86% identity to the chick WDR1 protein. Northern blot analysis of total RNA from the chick basilar papilla after noise trauma revealed increased levels of a 3.1-kb transcript in the lesioned area. The WDR1 gene was mapped to human chromosome 4, between 22 and 24 cM from the telomere of 4p.

The chicken cDNA for ornithine decarboxylase antizyme

Two full length avian cDNAs for ornithine decarboxylase antizyme were isolated from a chicken cochlear cDNA library and differed in length through use of alternative poly(A) addition signals. The chick antizyme protein sequence predicted by translational frameshifting of the mRNA is 216 amino acids long and is more similar to Xenopus antizyme than to the mammalian protein.

Novel genes expressed in the chick otocyst during development: identification using differential display of RNA

Differential display of mRNA is a technique that enables the researcher to compare genes expressed in two or more different tissues or in the same tissue or cell under different conditions. The method is based on polymerase chain reaction amplification and comparison of specific subsets of mRNA. We have used this method to clone partial complementary DNAs (cDNAs; amplicons) for genes expressed in the otocyst in order to identify genes that may be involved in development of the inner ear. A full length cDNA was isolated from an embryonic quail head library with an amplicon (KH121) obtained from the otocyst. This avian cDNA encoded a novel, 172-amino acid acidic protein and detected a major transcript of ca 0.8 kb in RNA from chick embryos and several neonatal chick tissues. The full length avian cDNA had high sequence identity to several human cDNAs (expressed sequence tags) from human fetal tissues, including cochlea, brain, liver/spleen and lung, and from placenta. The human homologue of the avian gene encoded a protein that was 183 amino acids long and had 75.6% amino acid sequence identity to the avian protein. These results identified both the avian and human homologues of an evolutionarily conserved gene encoding a small acidic protein of unknown function; however, expression of this gene was not restricted to otocysts.

Complete cDNAs for CDC42 from chicken cochlea and mouse liver

CDC42 is a member of the ras superfamily of small GTP-binding proteins that are related through the highly conserved GTP-binding domain and are involved in signal transduction pathways. Two full-length CDC42 cDNAs have been isolated: a 2148-bp chick cochlea cDNA and a 2063-bp mouse liver cDNA. Each encodes a CDC42 protein of 191 amino acids. The avian CDC42 protein differs from the mouse at only one amino acid residue, a Thr for a Ser at position 185. Both CDC42 proteins are more similar to the ubiquitous human isoform originally isolated from placenta than to the isoform isolated from fetal brain. Using a probe from the 3' UTR of the mouse liver CDC42 cDNA, we demonstrated that the mouse gene is expressed in all tissues examined. Southern blot analysis of a mouse inter-specific backcross with this gene-specific probe identified at least three CDC42-like (Cdc42l) genes in the mouse genome. Cdc42l1 was mapped to distal mouse Chromosome 4, near Cappb1. Cdc42l2 mapped more proximal on Chromosome 4, whereas Cdc42l3 mapped to the X Chromosome.

Molecular evolution of cytochrome c oxidase: rate variation among subunit VIa isoforms

Cytochrome c oxidase (COX) consists of 13 subunits, 3 encoded in the mitochondrial genome and 10 in the nucleus. Little is known of the role of the nuclear-encoded subunits, some of which exhibit tissue-specific isoforms. Subunit VIa is unique in having tissue-specific isoforms in all mammalian species examined. We examined relative evolutionary rates for the COX6A heart (H) and liver (L) isoform genes along the length of the molecule, specifically in relation to the tissue-specific function(s) of the two isoforms. Nonsynonymous (amino acid replacement) substitutions in the COX6AH gene occurred more frequently than in the ubiquitously expressed COX6AL gene. Maximum-parsimony analysis and sequence divergences from reconstructed ancestral sequences revealed that after the ancestral COX6A gene duplicated to yield the genes for the H and L isoforms, the sequences encoding the mitochondrial matrix region of the COX VIa protein experienced an elevated rate of nonsynonymous substitutions relative to synonymous substitutions. This is expected for relaxed selective constraints after gene duplication followed by purifying selection to preserve the replacements with tissue-specific functions.

Structure of the human gene (COX6A2) for the heart/muscle isoform of cytochrome c oxidase subunit VIa and its chromosomal location in humans, mice, and cattle

We have mapped the gene for the heart/muscle isoform of cytochrome c oxidase (COX) subunit VIa in three mammalian species and isolated the human COX6AH gene (HGMW-approved symbol COX6A2). The bovine gene was mapped by somatic cell hybrid mapping panels to bovine chromosome BTA 25 with 94-95% concordance. The mouse gene (Cox6ah) was mapped using an interspecific backcross panel from the cross (C57BL/6J x Mus spretus)F1 x Mus spretus probed with the mouse COX VIa-H cDNA. Cox6ah was located on distal chromosome 7, between D7Mit8 and D7Mit13. From the regions of known gene conservation among these three species, we predicted that human COX6AH would be located on chromosome 16p. We hybridized a human x rodent mapping panel of somatic cell hybrids with the human cDNA to confirm this assignment. These data taken together indicated that the human COX6AH gene is located on the short arm of chromosome 16 and facilitated the isolation of the human gene from a chromosome 16-enriched library. The human COX6AH gene spans about 1 kb and contains three exons and two small introns. The sequences of the proximal 5' flanking regions of COX6AH genes are highly conserved between human, bovine, and rodent.

Molecular evolution of cytochrome c oxidase subunit IV: evidence for positive selection in simian primates

Cytochrome c oxidase (COX) is a multi-subunit enzyme complex that catalyzes the final step of electron transfer through the respiratory chain on the mitochondrial inner membrane. Up to 13 subunits encoded by both the mitochondrial (subunits I, II, and III) and nuclear genomes occur in eukaryotic organisms ranging from yeast to human. Previously, we observed a high number of amino acid replacements in the human COX IV subunit compared to mouse, rat, and cow orthologues. Here we examined COX IV evolution in the two groups of anthropoid primates, the catarrhines (hominoids, cercopithecoids) and platyrrhines (ceboids), as well as one prosimian primate (lorisiform), by sequencing PCR-amplified portions of functional COX4 genes from genomic DNAs. Phylogenetic analysis of the COX4 sequence data revealed that accelerated nonsynonymous substitution rates were evident in the early evolution of both catarrhines and, to a lesser extent, platyrrhines. These accelerated rates were followed later by decelerated rates, suggesting that positive selection for adaptive amino acid replacement became purifying selection, preserving replacements that had occurred. The evidence for positive selection was especially pronounced along the catarrhine lineage to hominoids in which the nonsynonymous rate was first faster than the synonymous rate, then later much slower. The rates of three types of "neutral DNA" nucleotide substitutions (synonymous substitutions, pseudogene nucleotide substitutions, and intron nucleotide substitutions) are similar and are consistent with previous observations of a slower rate of such substitutions in the nuclear genomes of hominoids than in the nuclear genomes of other primate and mammalian lineages.

Expression of mal is associated with urothelial differentiation in vitro: identification by differential display reverse-transcriptase polymerase chain reaction

We have developed an in vitro urothelial differentiation model. In this model, differentiated urothelial cells assemble desmosomes and E-cadherin at cell-cell junctions and stratify and show antigenic and functional evidence for tight junctions. Using this urothelial differentiation model with the differential display reverse-transcriptase polymerase chain reaction (ddRT-PCR), we identified two independently isolated gene fragments that showed near identity with the reported sequence for a human cDNA clone named mal. Differential expression of mal mRNA during urothelial differentiation was confirmed by RT-PCR using two other sets of PCR primers. Furthermore, uncultured urothelial cells from tissues also express mal mRNA, as indicated by RT-PCR. Mal was originally identified in a subtracted cDNA library as a human T-cell differentiation-associated gene and was thought to be T-cell specific. Our results identify mal as a gene also expressed in urothelial cells during differentiation and demonstrate the power of ddRT-PCR for analysis of gene expression under these controlled conditions.

Novel beta 3 isoform of the Na,K-ATPase beta subunit from mouse retina

We isolated a full-length cDNA encoding a novel 278 amino acid beta subunit of Na,K-ATPase from a mouse retinal cDNA library. The highest sequence identity was to known beta 3 isoforms, identifying the protein as the mouse beta 3 subunit of Na,K-ATPase. Two transcripts, 1.75 kb and 2.1 kb, probably arise from use of alternative poly(A) addition signals.

Beta 4 integrin transfection of UM-UC-2 (human bladder carcinoma) cells: stable expression of a spontaneous cytoplasmic truncation mutant with rapid loss of clones expressing intact beta 4

The alpha 6 beta 4 integrin is a component of the hemidesmosome, the anchoring structure in the basal membrane of epithelial cells. alpha 6 beta 4 expression is frequently altered in neoplastic cells. It is sometimes lost and sometimes overexpressed, which suggests that disruption of normal function is involved in neoplastic transformation. To examine the effect of this integrin on the growth and behavior of malignant cells that have lost beta 4, we transfected a full-length beta 4 cDNA into the UM-UC-2 cell line that expresses alpha 6 but not beta 4. Although large numbers of clones were obtained when a control vector was used in the transfection, only 12 clones could be isolated that expressed beta 4. Of these, only two beta 4-positive clones, clones 8 and 11, persisted long enough for further study. Clone 8 cells initially expressed beta 4, but within 2 weeks, all positive cells were lost from the culture. Clone 11 persisted in culture and retained strong surface expression of alpha 6 beta 4. Biochemical analysis and Western blotting revealed that this clone contained a truncated form of beta 4 that had lost the distal cytoplasmic domain. We conclude that expression of wild-type beta 4 in UM-UC-2 inhibits cell growth, presumably by an integrin-mediated signaling pathway. Clone 11 escaped from normal signaling because the cytoplasmic domain, a region essential for basal polar localization, was lost. The alpha 6 beta 4 integrin appears to have tumor suppressor activity in epithelial tumors.

Sequence of the cDNA for the liver/non-muscle isoform of mouse cytochrome-c oxidase subunit VIII

We have isolated and sequenced the cDNA for the liver (L) or non-muscle isoform of mouse cytochrome-c oxidase subunit VIII (COX VIII-L). Comparison of deduced COX VIII-L protein sequences from three mammalian species indicated that the human gene has sustained more amino acid replacement substitutions than either the mouse or the cow. The most highly conserved regions of this subunit are the N-terminal presequence and the C-terminal domain of the mature protein.

Phylogenetic footprinting of the human cytochrome c oxidase subunit VB promoter

The human COX5B gene encodes subunit Vb of cytochrome c oxidase (COX). COX Vb is 1 of the 10 subunits of the mitochondrial COX complex encoded by a nuclear gene. We have defined a region in the human COX5B promoter essential for gene expression and shown by phylogenetic footprinting of 11 primate COX5B promoters that many cis-regulatory elements in this region are evolutionarily conserved. The transcription start site of human COX5B was mapped 58 bp upstream of the initiation Met codon by primer extension using a thermostable reverse transcriptase. A 475-bp region (-456 to +20) of the human COX5B gene was shown to function as a promoter for the chloramphenicol acetyl transferase (CAT) gene in expression vectors when transfected into HeLa cells. The human COX5B gene is located in a CpG island and contains several potential binding sites for the transcription factor Sp1, but no consensus TATA box element. Several sequence elements associated with the transcriptional regulation of respiratory genes were also found in the promoter and 5' flanking region, including a single NRF-1 site and two 9-bp direct repeats containing binding sites for ets-domain proteins, such as NRF-2/GABP. Many features of the human COX5B promoter are conserved in the COX5B promoters of primates, in particular, the presence of a single binding site for NRF-1 and multiple sites for Sp1 and NRF-2/GABP. Electrophoretic mobility shift assays demonstrate that the conserved NRF-1 site in primate COX5B promoters is specifically recognized by a factor present in HeLa nuclear extracts. Phylogenetic footprinting has identified additional conserved elements that may also function as binding sites for regulatory factors.

Identification of genes expressed after noise exposure in the chick basilar papilla

We used differential display of mRNA, a method based on reverse transcriptase-PCR, to identify genes whose expression increases in response to acoustic trauma in the chick basilar papilla. Identifying these genes would provide insight into processes involved in repair of the damaged epithelium or in hair cell regeneration. We compared mRNA from the basilar papilla of normal chicks, from chicks exposed to an octave band noise (center frequency: 1.5 kHz) presented at 118 dB for 6 h, and from chicks exposed to noise and allowed to recover for 2 days. Thus far, we have identified 70 bands that appear to be differentially displayed on DNA sequencing gels; approximately 40 of these bands have been subcloned and sequenced. DNA sequences were compared with sequences in the GenBank database to identify genes with significant (70-85%) sequence identity to known genes. Chick cDNAs identified included: the parathyroid hormone-related protein, an immediate early gene; the delta-subunit of the neuronal-specific Ca2+/calmodulin-regulated protein kinase II; and the GTP-binding protein CDC42, a member of the ras superfamily of G proteins. A fourth cDNA had 84% sequence identity to an uncharacterized human cDNA (expressed sequence tag), indicating that this is a novel gene. Slot-blot hybridization analysis of these cDNAs probed with labeled DNA generated from mRNA from each experimental group indicated higher levels of mRNA for each of these four genes after noise exposure. These results indicate the potential involvement of both Ca2+/calmodulin-mediated signaling and GTPase cascades in the response to noise damage and during hair cell regeneration in the chick basilar papilla.

Sequence of the cDNA for the heart/muscle isoform of mouse cytochrome c oxidase subunit VIII

We have isolated and sequenced cDNAs for the heart/muscle (H) isoform of mouse cytochrome c oxidase subunit VIII (COX VIII-H). The deduced protein sequence enables us to compare the heart/muscle COX VIII isoforms from several species and to determine that the most highly conserved region of this subunit is the C-terminal domain.

Structure and chromosomal location of the bovine gene for the heart muscle isoform of cytochrome c oxidase subunit VIII

We have isolated the bovine COX8H gene for the heart/muscle isoform of cytochrome c oxidase (COX) subunit VIII from a library of bovine genomic DNA cloned into lambda EMBL3. Primer extension assays on bovine heart mRNA mapped the 5' ends of COX8H transcripts to a CA dinucleotide 62-bp upstream from the ATG codon. The gene thus spans 1565-bp and comprises two exons and one large intron of 1227 bp. Exon 1 encodes the 5' untranslated region, a 24-amino acid presequence, and the first 13 amino acids of the mature COX VIII-H protein. Exon 2 encodes the remainder of the cDNA: amino acids 14 to 46 plus the 66-bp 3' untranslated region. The exon-intron boundaries matched the consensus splice junction sequences. Two protein polymorphisms were seen: an Ala/Val polymorphism at position -6 in the presequence and the previously noted Lys/Arg polymorphism at residue 7 of the mature protein. A TaqI polymorphism occurs in the intron. The COX8H gene was mapped by bovine x rodent somatic cell hybrid mapping panels to bovine (BTA) Chromosome (Chr) 25 with 100% concordancy. BTA 25 is conserved relative to the long arm of human (HSA) Chr 11, which contains COX8, the gene for the single human COX VIII subunit that is homologous to the liver isoform.

Structural organization of the bovine gene for the heart/muscle isoform of cytochrome c oxidase subunit VIa

The bovine gene for the nuclear-encoded heart/muscle isoform of cytochrome c oxidase subunit VIa (COX6A1) was isolated from a library of bovine genomic DNA in lambda EMBL3 and sequenced. The gene spans 760 bp and comprises three exons and two small introns. Exon 1 encodes a 193 bp 5' untranslated region, a 12 amino acid presequence, and the first 12 amino acids of the mature COX VIa protein. Exon 2 encodes amino acids 13 to 58, and exon 3 amino acids 59 to 85 plus the 35 bp 3' untranslated region. Exons 2 and 3 are separated by a small intron of only 96 bp. All exon-intron boundaries matched the consensus splice junction sequences. COX6A1 transcripts are present in RNA from bovine heart but not brain. Primer extension and ribonuclease protection assays were used to map the 5' ends of COX6A1 transcripts in heart; both methods identified several clusters of transcription initiation sites, indicating that COX6A1 mRNA is heterogeneous at the 5' end. The proximal 5' flanking region is AT-rich and contains potential basal promoter elements, such as TATA and CCAAT boxes, associated with tissue-specific genes. A single consensus binding site for the muscle-specific transcription factor, MyoD1, was also located within this AT-rich region. The distal promoter region contained a perfect AP4 site plus potential binding sites for enhancer elements (NRF-1, Mt1, Mt3, and Mt4) proposed to regulate expression of genes for mitochondrial proteins.

Rapid evolution of the human gene for cytochrome c oxidase subunit IV

We have compared the DNA sequences of nine mammalian genes for cytochrome c oxidase subunit IV (COX4 genes)--four expressed genes (human, bovine, rat, and mouse) and five pseudogenes (human, chimpanzee, orangutan, squirrel monkey, and bovine)--and constructed the sequence of the ancestral mammalian COX4 gene. By analyzing these sequences to determine the pattern and rate of nucleotide substitution in each branch of the evolutionary tree, we deduced that the human gene has evolved rapidly since the origin of the primate pseudogene approximately 41 million years ago, and we discuss the suggestion that this results from coevolution of nuclear and mitochondrial genes for cytochrome c oxidase.

Myosin light chain 1 isoform expression remains constant during ageing in Wistar F455 rats

In order to study muscle gene expression during ageing, we examined both protein and total cellular RNA from Wistar F455 rat soleus and extensor digitorum longus (EDL) muscles at a variety of chronological ages. We found no evidence of the reappearance of the fast protein isoform of myosin light chain 1 [MLC1] in the slow soleus muscle during ageing previously reported by Syrovy and Gutmann, Pflügers Arch., 369 (1977) 85-89. We used both SDS-PAGE analysis of MLC1 proteins and slot blot RNA analysis with a probe specific for rat fast MLC1 mRNA (pC91), and found no changes in fast MLC1 expression during ageing in soleus or EDL muscles from these rats. These results indicate that re-expression of the fast MLC1 isoform is not a universal property of ageing soleus muscle.

Characterization and expression of a cDNA specifying subunit VIIc of bovine cytochrome c oxidase

We have isolated a cDNA that encodes subunit VIIc of bovine cytochrome c oxidase (COX VIIc). The 325-bp cDNA contains sequences encoding the mature 47-amino acid (aa) polypeptide and a 16-aa presequence. The deduced aa sequence of the processed polypeptide is identical to that of the heart protein determined by aa sequencing. Northern-blot analysis reveals a single 525-nucleotide (nt) transcript in all tissues examined, whose levels vary with the corresponding respiratory activities in different tissues; thus, no evidence for isoforms of COX VIIc is seen in adult tissues. Southern-blot analysis of bovine genomic DNA digested with three different restriction enzymes reveals several bands that hybridize with the cDNA. We present here the sequence of one genomic region that contains a processed gene encoding COX VIIc. The genomic and cDNA nt sequences are 99% identical throughout the 189-bp open reading frame; the deduced aa sequences are identical. The sequence of the genomic clone suggests that the cDNA terminates prematurely at an EcoRI site in the 3'-untranslated region. We have compared COX VIIc cDNAs from cow, human and mouse, and find the presequence similarity among them to be 100% at the aa level.

The cDNA for the heart/muscle isoform of bovine cytochrome c oxidase subunit VIa encodes a presequence

We have used mixed oligonucleotide probes to isolate a cDNA for the heart/muscle isoform of cytochrome c oxidase (COX) subunit VIa (COX VIa-H) from a bovine heart cDNA library in lambda gt10. This cDNA, and a second one isolated upon rescreening, predict a 97 amino acid COX VIa precursor protein comprised of a 12 amino acid, basic presequence plus an 85 residue mature VIa protein. The presence of a presequence contrasts with the rat heart COX VIa cDNA.

Structure of the human cytochrome c oxidase subunit Vb gene and chromosomal mapping of the coding gene and of seven pseudogenes

Subunit Vb of mammalian cytochrome c oxidase (COX; EC 1.9.3.1) is encoded by a nuclear gene and assembled with the other 12 COX subunits encoded in both mitochondrial and nuclear DNA. We have cloned the gene for human COX subunit Vb (COX5B) and determined the exon-intron structure by both hybridization analysis and DNA sequencing. The gene contains five exons and four introns; the four coding exons span a region of approximately 2.4 kb. The 5' end of the COX5B gene is GC-rich and contains many HpaII sites. Genomic Southern blot analysis of human DNA probed with the human COX Vb cDNA identified eight restriction fragments containing COX Vb-related sequences that were mapped to different chromosomes with panels of human x Chinese hamster somatic cell hybrids. Because only one of these fragments hybridized with a 210-bp probe from intron 4, we conclude that there is a single expressed gene for COX subunit Vb in the human genome. We have mapped this gene to chromosome 2, region cen-q13.

Differential expression of nuclear genes for cytochrome c oxidase during myogenesis

Recent studies of patients with mitochondrial myopathies suggest the existence of both muscle-specific and developmentally regulated isoforms of cytochrome c oxidase (COX), the terminal enzyme complex of the electron transport chain. To investigate the temporal pattern of gene expression of nuclear genes for COX in developing muscle, the steady-state levels of COX mRNA in total RNA from a satellite cell-derived mouse muscle cell line, C2C12, were analyzed and compared with COX mRNA levels in mature rat skeletal muscle. Undifferentiated myoblasts, myotubes just after fusion (early myotubes), and fully differentiated, contractile, striated myotubes (late myotubes) were analyzed for mRNA levels for four of the 10 different nuclear-encoded COX subunits: IV, Vb, Vlc and VIII-liver. Of these, IV, Vb and Vlc are identical in both bovine heart and liver, whereas subunit VIII has heart and liver isoforms. In C2C12 myoblasts, the level of mRNA for subunits IV, Vb, and VIII-liver is equal to or greater than the level in tissues such as brain, skeletal muscle, and liver. As myoblasts fuse and differentiate into myotubes, the levels of mRNA for these subunits undergo radically different changes. Transcripts for subunits IV and Vb accumulate to higher levels during myogenesis. The level of subunit VIII transcripts decreases during myogenesis, providing additional evidence that subunit VIII has tissue-specific isoforms in the rat. Little mRNA for COX Vlc was detected in either the C2C12 cell line or in primary embryonic rat myoblasts or myotubes in culture in spite of high levels in adult skeletal muscles, suggesting that subunit Vlc may have both fetal and adult isoforms in rodents.

Novel use of a chimpanzee pseudogene for chromosomal mapping of human cytochrome c oxidase subunit IV

We have isolated a chimpanzee processed pseudogene for subunit IV of cytochrome c oxidase (COX; EC 1.9.3.1) by screening a chimpanzee genomic library in lambda Charon 32 with a bovine liver cDNA encoding COX subunit IV (COX IV), and localized it to a 1.9-kb HindIII fragment. Southern-blot analysis of genomic DNA from five primates showed that DNAs from human, gorilla, and chimpanzee each contained the 1.9-kb pseudogene fragment, whereas orangutan and pigtail macaque monkey DNA did not. This result clearly indicates that the pseudogene arose before the divergence of the chimpanzee and gorilla from the primate lineage. By screening Chinese hamster x human hybrid panels with the human COX4 cDNA, we have mapped COX4 genes to two human chromosomes, 14 and 16. The 1.9-kb HindIII fragment containing the pseudogene, COX4P1, can be assigned to chromosome 14, and by means of rearranged chromosomes in somatic cell hybrids, to 14q21-qter. Similarly, the functional gene, COX4, has been mapped to 16q22-qter.

Tissue-specific genes for respiratory proteins

All but one of the mitochondrial respiratory complexes are composed of products of both the mitochondrial and the nuclear genomes. The recent isolation of cDNAs for several nuclear-encoded respiratory proteins reveals that some of them are present in at least two forms. Although some of these forms are traditional in differing somewhat in amino acid sequence, a new class, termed silent isoforms, differs in the presequence but contains identical processed proteins. What are the roles of tissue isoforms in oxidative metabolism?

Isolation of a cDNA clone encoding subunit IV of human cytochrome c oxidase

We have isolated a full-length human liver cDNA clone specifying the nuclear-encoded subunit IV of the human mitochondrial respiratory chain enzyme, cytochrome c oxidase (COX; EC 1.9.3.1). The human cDNA clone is highly homologous to its bovine counterpart in the coding regions for both the mature polypeptide and the presequence, and the gene is evolving more slowly than that of any of the three mitochondrially encoded COX subunit genes. We find no preliminary evidence for tissue-specific isoforms of COX subunit IV, as Northern analysis of muscle, liver, and HeLa cell RNA shows an identically sized transcript in each cell type.

Two bovine genes for cytochrome c oxidase subunit IV: a processed pseudogene and an expressed gene

We have isolated and analyzed 17 clones from a bovine genomic library in phage lambda Charon28 probed with a bovine liver cDNA for cytochrome c oxidase subunit IV. Restriction enzyme mapping and Southern analysis indicated that these clones represent only two genomic regions. One region was shown by nucleotide sequencing to contain a subunit IV pseudogene of the processed type. The other class of clones contained the 5' region of a putative expressed gene; the region consists of two exons and two introns, with one exon encoding exclusively the domain representing the presequence present on newly synthesized subunit-IV polypeptides. Genomic Southern analysis indicated that these two clones probably represent the only sequences in the bovine nucleus that share nucleotide sequence identity with the liver subunit IV cDNA when utilizing moderately stringent hybridization conditions.

SPLINT: a cubic spline interpolation program for the analysis of fragment sizes in one-dimensional electrophoresis gels

SPLINT (SPLine INTerpolation) is a BASIC microcomputer program that uses electrophoretic data on the migration distances of DNA fragments of known size to approximate the relationship between distance moved and DNA fragment size by a piecewise cubic spline function. This function places all standards exactly on the calibration curve and then determines from it the sizes of other fragments in the gel. Special advantages of this program include the use of a digitizer to enter the fragment positions directly from a gel photograph and the optional generation of a graph of the approximating function plus the placement on it of points from any specified gel lanes.

Isolation and characterization of a cDNA clone for bovine cytochrome c oxidase subunit IV

We have isolated a cDNA clone for the precursor to subunit IV of bovine cytochrome c oxidase (ferrocytochrome c:oxygen oxidoreductase, EC 1.9.3.1). A cDNA library was constructed from poly(A)+ RNA of adult beef liver by insertion of cDNA into the plasmid vector pBR322. Transformants were screened by colony hybridization with two mixtures of [32P]-labeled synthetic oligodeoxyribonucleotides. We screened 20,000 transformants with a mixture of heptadecamers complementary to all 16 possible sequences encoding amino acids 98-103 and obtained two cDNA clones encoding subunit IV amino acid sequences. We determined the DNA sequence of the larger (416 base-pair) insert, which contains the coding sequence for amino acids 1-107 of the mature protein and an NH2-terminal extension (presequence). The deduced amino acid sequence of the mature protein is identical with the previously determined protein sequence: the sequence of the NH2-terminal extension contains a potential initiator methionine at amino acid -22 from the NH2-terminus of the processed protein. The presequence is quite basic and contains several arginines, including one at the processing site. No hydrophobic region analogous to that found in bacterial and eukaryotic signal peptides is present, but there are homologies with other mitochondrial protein presequences, which may include a common signal for their destination and processing.

A restriction enzyme cleavage map of the histidine utilization (hut) genes of Klebsiella aerogenes and deletions lacking regions of hut DNA

The histidine utilization (hut) operons of Klebsiella aerogenes were cloned into pBR322. The hut genes are wholly contained on a 7.9 kilobase pair fragment bounded by HindIII restriction sites and expression of hut is independent of the orientation of the fragment with respect to pBR322. A restriction map locating the 27 cleavage sites within hut for the enzymes, HindIII, PvuII, SalI, BglII, KpnI, PstI, SmaI, AvaI, and BamHI was deduced. Several of the cleavage sites for the enzymes HaeIII and HinfI were also mapped. A set of deletion plasmids was isolated by removing various restriction fragments from the original plasmid. These deletions were characterized and were used to assist in mapping restriction sites. This physical characterization of hut DNA opens the way for genetic and molecular analysis of the regulation of hut gene expression in vitro as well as in vivo.

Cloned ribosomal RNA genes from chloroplasts of Euglena gracilis

Fragments of Euglena chloroplast DNA generated by endonuclease R-Eco RI were separated by agarose-gel electrophoresis into 24 distinct bands. At least five fragments contain sequences complementary to chloroplast ribosomal RNA, Most of the Eco RI fragments have been cloned in a plasmid of Escherichia coli. Three of the cloned fragments were shown to contain chloroplast ribosomal RNA sequences by DNA-RNA hybridization.