Fumikiyo Nagawa

Mutually exclusive expression of odorant receptor transgenes.

To study the mutually exclusive expression of odorant receptor (OR) genes, we generated transgenic mice that carried the murine OR gene MOR28. Expression of the transgene and the endogenous MOR28 was distinguished by using two different markers, β-galactosidase and green fluorescent protein (GFP), respectively. Double staining of the olfactory epithelium revealed that the two genes were rarely expressed simultaneously in individual olfactory neurons. A similar exclusion was also observed between differently tagged but identical transgenes integrated into the same locus of one particular chromosome. Although allelic inactivation has been reported for the choice between the maternal and paternal alleles, this is the first demonstration of mutually exclusive activation among non-allelic OR gene members with identical coding and regulatory sequences. Such an unusual mode of gene expression, monoallelic and mutually exclusive, has previously been shown only for the antigen-receptor genes of the immune system.

Monoallelic expresion of the odourant receptor gene and axonal projection of olfactory sensory neurones

We have previously generated transgenic mice carrying the murine odourant receptor gene, MOR28, tagged with lacZ. In this animal, the endogenous MOR28 is differently tagged with GFP. It was found that the transgenic and endogenous MOR28 genes are expressed in a mutually exclusive manner and that the two sets of olfactory sensory neurones (OSNs), each expressing either the transgenic or the endogenous MOR28, project their axons to separate glomeruli.

Footprint Analysis of the RAG Protein Recombination Signal Sequence Complex for V(D)J Type Recombination

ABSTRACT We have studied the interaction between recombination signal sequences (RSSs) and protein products of the truncated forms of recombination-activating genes (RAG) by gel mobility shift, DNase I footprinting, and methylation interference assays. Methylation interference with dimethyl sulfate demonstrated that binding was blocked by methylation in the nonamer at the second-position G residue in the bottom strand and at the sixth- and seventh-position A residues in the top strand. DNase I footprinting experiments demonstrated that RAG1 alone, or even a RAG1 homeodomain peptide, gave footprint patterns very similar to those obtained with the RAG1-RAG2 complex. In the heptamer, partial methylation interference was observed at the sixth-position A residue in the bottom strand. In DNase I footprinting, the heptamer region was weakly protected in the bottom strand by RAG1. The effects of RSS mutations on RAG binding were evaluated by DNA footprinting. Comparison of the RAG-RSS footprint data with the published Hin model confirmed the notion that sequence-specific RSS-RAG interaction takes place primarily between the Hin domain of the RAG1 protein and adjacent major and minor grooves of the nonamer DNA.

Regulation of antigen-receptor gene assembly in hagfish

Variable lymphocyte receptors (VLRs) are antigen receptors in the jawless vertebrates lamprey and hagfish. VLR genes are classified into VLRA and VLRB, and lymphocytes expressing VLRA are T‐cell‐like, whereas those expressing VLRB are B‐cell‐like in the sea lamprey. Diverse VLR genes are assembled somatically in lymphocytes; however, how the assembly is regulated is still largely unknown. Here, we analyse VLR gene assembly at the single‐cell level in the inshore hagfish (Eptatretus burgeri). Each lymphocyte assembles and transcribes only one type of VLR gene, either VLRA or VLRB. In general, monoallelic assembly of VLR was observed, but diallelic assembly was found in some cases—in many of which, one allele was functional and the other was defective. In fact, all VLR‐assembled lymphocytes contained at least one functional VLR gene. Together, these results indicate a feedback inhibition of VLR assembly and selection of VLR‐positive lymphocytes.

Genomic analysis of the murine odorant receptor MOR28 cluster: a possible role of gene conversion in maintaining the olfactory map.

Genomic analysis was performed for the murine odorant receptor (OR) genes. The MOR28 cluster on chromosome 14 was extensively studied. It contains six OR genes, MOR28, 10, 83, 29A, 29B and 30. The human homolog of this cluster is located on the human chromosome 14, and contains five OR genes, HOR28/10, 83, 29A, 29B and 30. Sequence comparison of these OR gene paralogs and orthologs suggests that the coding homologies are accounted for not only by recent gene duplication, but also by gene conversion among the coding sequences within the cluster. A possible role of gene conversion in the olfactory system is discussed in the context of the olfactory map.

Footprint Analysis of Recombination Signal Sequences in the 12/23 Synaptic Complex of V(D)J Recombination

ABSTRACT In V(D)J joining of antigen receptor genes, two recombination signal sequences (RSSs), 12-RSS and 23-RSS, are paired and complexed with the protein products of recombination-activating genes RAG1 and RAG2. Using magnetic beads, we purified the pre- and postcleavage complexes of V(D)J joining and analyzed them by DNase I footprinting. In the precleavage synaptic complex, strong protection was seen not only in the 9-mer and spacer regions but also near the coding border of the 7-mer. This is a sharp contrast to the single RSS-RAG complex where the 9-mer plays a major role in the interaction. We also analyzed the postcleavage signal end complex by footprinting. Unlike what was seen with the precleavage complex, the entire 7-mer and its neighboring spacer regions were protected. The present study indicates that the RAG-RSS interaction in the 7-mer region drastically changes once the synaptic complex is formed for cleavage.

Evolution of adaptive immunity: Implications of a third lymphocyte lineage in lampreys

An alternative antigen receptor, named the variable lymphocyte receptor (VLR), was first identified in lampreys in 2004. Since then, the mechanism of VLR diversification via somatic gene assembly and the function of VLR-expressing lymphocytes have been the subject of much research. VLRs comprise leucine-rich repeat (LRR) motifs and are found only in the most phylogenetically distant vertebrates from mammals, lampreys, and hagfish. Previous reports showed that VLRA and VLRB are reciprocally expressed by lymphocytes that resemble T- and B cells; however, more recent reports show that another VLR, VLRC, is expressed on a third lymphocyte lineage, which may be equivalent to γδ T cells. The existence of three major lymphocyte lineages - one B-cell-like and two T-cell-like - and their development in lampreys, parallels the mammalian adaptive immune system. This suggests that these three cell lineages were present in the common vertebrate ancestor approximately 500 million years ago.

Axonal projection of olfactory sensory neurons during the developmental and regeneration processes

We have studied the projection of olfactory sensory neurons (OSNs), during the developmental and regeneration processes, using the transgenic mouse carrying the differently tagged odorant receptor genes, MOR28. We have found that the axon terminals of the two sets of MOR28-positive OSNs, one expressing the lacZ tag and the other expressing the green fluorescent protein gene, are dispersed and intermingled at early developmental or regeneration stages. Projection areas become more distinct and separated at later stages, however, two sets of axon fibers are not typically bundled or segregated during pathfinding. It appears that segregation of axons mainly occurs when they target at the olfactory bulb to form the glomerular structure.

RAG-Heptamer Interaction in the Synaptic Complex Is a Crucial Biochemical Checkpoint for the 12/23 Recombination Rule

In V(D)J recombination, the RAG1 and RAG2 protein complex cleaves the recombination signal sequences (RSSs), generating a hairpin structure at the coding end. The cleavage occurs only between two RSSs with different spacer lengths of 12 and 23 bp. Here we report that in the synaptic complex, recombination-activating gene (RAG) proteins interact with the 7-mer and unstack the adjacent base in the coding region. We generated a RAG1 mutant that exhibits reduced RAG-7-mer interaction, unstacking of the coding base, and hairpin formation. Mutation of the 23-RSS at the first position of the 7-mer, which has been reported to impair the cleavage of the partner 12-RSS, demonstrated phenotypes similar to those of the RAG1 mutant; the RAG interaction and base unstacking in the partner 12-RSS are reduced. We propose that the RAG-7-mer interaction is a critical step for coding DNA distortion and hairpin formation in the context of the 12/23 rule.

In Vitro Processing of the 3′-Overhanging DNA in the Postcleavage Complex Involved in V(D)J Joining

ABSTRACT The postcleavage complex involved in V(D)J joining is known to possess a transpositional strand transfer activity, whose physiological role is yet to be clarified. Here we report that RAG1 and RAG2 proteins in the signal end (SE) complex cleave the 3′-overhanging structure of the synthetic coding-end (CE) DNA in two successive steps in vitro. The 3′-overhanging structure is attacked by the SE complex imprecisely, near the double-stranded/single-stranded (ds/ss) junction, and transferred to the SE. The transferred overhang is then resolved and cleaved precisely at the ds/ss junction, generating either the linear or the circular cleavage products. Thus, the blunt-end structure is restored for the SE and variably processed ends are generated for the synthetic CE. This 3′-processing activity is observed not only with the core RAG2 but also with the full-length protein.