Developmental accumulation and heterogeneity of myelin basic protein transcripts in the chick visual system

Analogous structural motifs in myelin basic protein and in MARCKS

Myelin basic protein (MBP) and myristoylated alanine-rich C-kinase substrate (MARCKS) are similar in terms of having extended conformations regulated by their environment (i.e., solubilised or lipid-associated), N-terminal modifications, a dual nature of interactions with lipids, binding to actin and Ca2+-calmodulin, and being substrates for different kinds of protein kinases. The further sequence similarities of segments of MBP with lipid effector regions of MARCKS, and numerous reports in the literature, support the thesis that some developmental isoform of MBP functions in signal transduction.

Implications of the sequence similarities between tau and myelin basic protein

The minor myelin basic protein (MBP) isoforms with M(r) 21.5 and 17 kDa and the cytoskeletal proteins actin and tubulin are enriched in an interlamellar junctional specialization within central nervous system (CNS) myelin, the radial component (RC). To pursue the notion that there are specific interactions between these constituents, we searched for sequences in MBP that are homologous to sequences in the tubulin-binding protein tau. We found that the sequence motifs that are homologous to the phosphorylation and tubulin binding sites of tau (-RSP- and -KPGFG-) are also within the exon 2 and 6-encoded peptides of MBP. The -KPGFG- motif is unique to MBP when compared to other myelin proteins, and is highly conserved in the MBPs among vertebrate species. The physicochemical properties of the MBP and tau peptides that contain these sequences and their predicted secondary structures suggest that the peptides containing these motifs are hydrophilic and folded largely in turn and coil. This implies that the motifs are located at the protein surface where they would be accessible for interactions with other components of proteins or lipids. We propose that these putative phosphorylation and tubulin-binding sites in MBP may play functional roles in CNS myelin that are analogous to their roles in tau.

Molecular cloning of the myelin basic proteins in the shark, Squalus acanthias, and the ray, Raja erinacia

Myelin basic proteins (MBPs) are a family of alternatively spliced isoforms present in myelin sheaths of most vertebrates. A reverse transcriptase-polymerase chain reaction (RT-PCR) approach was used to clone MBP isoforms in species representing two superorders of elasmobranchs: Squalus acanthias, representing Squalomorph sharks, and Raja erinacia, representing Batoidea rays. Two products were generated from each species. The larger product encoded a 155 amino acid protein, the same size as MBPs from two Galeomorph sharks, Heterodontus francisci and Carcharhinus obscurus, which, based upon alignment with other vertebrate MBPs, contained six of the seven MBP exons; only exon II was absent. The smaller product encoded a 141 amino acid protein that lacked exon II and exon V. There were 26 and 30 nucleotide differences between Squalus and Heterodontus, and Raja and Heterodontus, respectively. Sequences from Squalus and Raja were far more similar, having only five nucleotide differences. Both isoforms of elasmobranch MBP contain 18.5% basic (lysine plus arginine) amino acids, compared with 17.5% in mammalian MBPs comprised of the corresponding exons. Northern blot analysis of whole brain total RNA revealed a single band of 2.5 kb in Squalus, and three bands of 1.2, 1.4, and 2.3 kb in Raja. The finding that MBPs of a Squalomorph shark and a Batoidea ray are closer to one another than either is to the Galeomorph sharks suggests that MBP sequence information may prove useful in classifying modern day Chondrichthytes.

The ectopic expression of myelin basic protein isoforms in Shiverer oligodendrocytes: implications for myelinogenesis

The myelin basic proteins (MBPs) are a set of peripheral membrane polypeptides that are required for the compaction of the major dense line of central nervous system myelin. We have used primary cultures of oligodendrocytes from MBP-deficient shiverer mice as host cells for the expression by cDNA transfection of each of the four major MBP isoforms. The distributions of the encoded polypeptides were studied by immunofluorescence and confocal microscopy and compared with patterns of MBP expression in normal mouse oligodendrocytes in situ and in culture. The exon II-containing 21.5- or 17-kD MBPs were distributed diffusely in the cytoplasm and in the nucleus of the transfectants, closely resembling the patterns obtained in myelinating oligodendrocytes in 9-d-old normal mouse brains. By contrast, the distribution of the 14- and 18.5-kD MBPs in the transfectants was confined to the plasma membrane and mimicked the distribution of MBP in cultures of normal adult oligodendrocytes. Our results strongly suggest that the exon II-containing MBPs are expressed first and exclusively during oligodendrocyte maturation, where they may play a role in the early phase of implementation of the myelination program. In contrast, the 14- and 18.5-kD MBPs that possess strong affinity for the plasma membrane are likely to be the principle inducers of myelin compaction at the major dense line.

Isolation of the chicken middle-molecular weight neurofilament (NF-M) gene and characterization of its promoter

We have isolated and sequenced genomic DNA clones covering the coding region of the chicken mid-size neurofilament (NF-M) gene and greater than 1 kb of its 5' upstream region. The NF-M gene contains two introns which both are located within the highly conserved C-terminal region of the rod domain. The 5' end of the corresponding mRNA was assigned to a G residue 40 nucleotides upstream of the translation start site and in appropriate distance from a potential TATA box. To functionally analyze the NF-M promoter, constructs carrying 112, 222, and 1026 nucleotides of the 5' upstream region in front of a luciferase reporter gene were tested for their capability to direct luciferase expression after transient transfection into various cell lines. Significant luciferase activity was recorded both in rat phaeochromocytoma (PC12) cells and murine fibroblasts. In PC12 cells, in which neurite outgrowth is induced by nerve growth factor (NGF), expression was stimulated up to 13-fold within 3 days of NGF treatment. This closely resembles expression of the endogenous NF-M gene in response to this hormone.