Ivy S.C Liu

Developmental expression of a novel murine homeobox gene (Chx10): Evidence for roles in determination of the neuroretina and inner nuclear layer

Few potential regulatory proteins of vertebrate retinal development have been identified. We describe a 39 kDa murine polypeptide (Chx10) with a homeodomain 82% identical to that of the nematode protein ceh-10. In the developing mouse, the Chx10 transcript is expressed throughout the anterior optic vesicle and all neuroblasts of the optic cup. In the mature retina, the Chx10 protein is restricted to the inner nuclear layer, in which its expression decreases from the outer to the inner margin. Chx10 transcripts are also detected in regions of the developing thalamus, hindbrain, and ventral spinal cord. The data suggest that Chx10 plays critical roles in the formation of the neuroretina and in the development and maintenance of the inner nuclear layer.

Cloning and characterization of additional members of the G protein-coupled receptor family

A search of the expressed sequence tag (EST) database retrieved a human cDNA sequence which partially encoded a novel G protein-coupled receptor (GPCR) GPR26. A human genomic DNA fragment encoding a partial open reading frame (ORF) and a rat cDNA encoding the full length ORF of GPR26 were obtained by library screening. The rat GPR26 cDNA encoded a protein of 317 amino acids, most similar (albeit distantly related) to the serotonin 5-HT(5A) and gastrin releasing hormone BB2 receptors. GPR26 mRNA expression analysis revealed signals in the striatum, pons, cerebellum and cortex. HEK293 and Rh7777 cells transfected with GPR26 cDNA displayed high basal cAMP levels, slow growth rate of clonal populations and derangements of normal cell shape. We also used a sequence reported only in the patent literature encoding GPR57 (a.k.a. HNHCI32) to PCR amplify a DNA fragment which was used to screen a human genomic library. This resulted in the cloning of a genomic fragment containing a pseudogene, psiGPR57, with a 99.6% nucleotide identity to GPR57. Based on shared sequence identities, the receptor encoded by GPR57 was predicted to belong to a novel subfamily of GPCRs together with GPR58 (a.k.a. phBL5, reported only in the patent literature), putative neurotransmitter receptor (PNR) and a 5-HT(4) pseudogene. Analysis of this subfamily revealed greatest identities (approximately 56%) between the receptors encoded by GPR57 and GPR58, each with shared identities of approximately 40% with PNR. Furthermore, psiGPR57, GPR58, PNR and the 5-HT(4) pseudogene were mapped in a cluster localized to chromosome 6q22-24. PNR and GPR58 were expressed in COS cells, however no specific binding was observed for various serotonin receptor-specific ligands.

Dopamine D4 receptor variant in Africans, D4Valine194Glycine, is insensitive to dopamine and clozapine: Report of a homozygous individual

The D4Valine194Glycine receptor is a variant of the dopamine D4 receptor and is found in 12.5% of the Afro-Caribbean population. Glycine replaces valine at a position one amino acid away from a serine which is critical for the attachment of dopamine. To determine whether this mutation had an effect on the properties of the dopamine D4 receptor, we constructed this variant and tested the sensitivity of the expressed protein with various drugs. We found that the variant receptor was two orders of magnitude less sensitive to dopamine, clozapine and olanzapine. The variant receptor was insensitive to guanine nucleotide, indicating the absence of a high-affinity state or functional state. The one 15-year-old individual found homozygous for this variant also had sickle cell disease. The patient revealed an overall pattern of low weight and no axillary or pubic hair.

The human dopamine D2Longer receptor has a high-affinity state and inhibits adenylyl cyclase

Brain dopamine D2 receptors are the main targets for antipsychotic and anti-Parkinsonian drugs. The dopamine D2 receptor has three forms, D2(Short), D2(Long) and D2(Longer). D2(Longer) is a newly found splice variant which contains two additional amino acids (valine and glutamine) in the third cytoplasmic loop of the receptor. To determine whether D2(Longer) was functional, the cDNA was transfected into CHO cells. D2(Longer) revealed a high-affinity state for dopamine ( approximately 1.5 nM), and mediated dopamine-inhibited adenylyl cyclase.

Schizophrenia: elevated mRNA for dopamine D2Longer receptors in frontal cortex

Because dopamine D2 receptors are the primary targets for antipsychotic drugs, including clozapine and quetiapine, and because some studies have found D2 receptors to be elevated in schizophrenia, we examined the mRNA of three forms of the D2 receptor, particularly the new form of the dopamine D2 receptor, D2(Longer), in post-mortem brains from patients who died with schizophrenia. Using quantitative competitive RT-PCR (reverse transcriptase-polymerase chain reaction), the D2(Longer) mRNA was higher in the frontal cortex, compared to control tissues. The mRNA concentration of D2(Long) and D2(Short) was also higher in the frontal cortex, compared to control tissues. Although most of the schizophrenia patients had received different antipsychotic drugs for varying periods of time, the mRNA of D2(Longer), as well as that for D2(Long) and D2(Short), in such medicated tissues was similar to that in a frontal cortex tissue from a patient who had reliably never received antipsychotic drugs. It is possible, therefore, that the elevation of the mRNAs for D2(Longer), D2(Long) and D2(Short) in the frontal cortex may be related to the disease of schizophrenia itself.

A serotonin-4 receptor-like pseudogene in humans

During a search for new G-protein-linked receptors for dopamine and serotonin, we found a serotonin-4 receptor-like pseudogene. This receptor-like pseudogene is intronless, contains an in-frame stop codon following transmembrane-3, and has two one-nucleotide insertions between transmembrane-5 and -6 regions which alter the reading frame. The predicted amino acid sequence of the human pseudogene is about 35% identical with that of the rat serotonin-4 receptor.

A human serotonin-7 receptor pseudogene

Although the serotonin-7 receptor was cloned several years ago, its localization in brain tissues remains confusing because of the existence of a related expressed pseudogene, the sequence of which has not hitherto been reported. During the course of searching for related receptor genes, we also searched for this pseudogene to determine its sequence. Human genomic DNA was screened for dopamine and serotonin receptor-like genes, using the polymerase chain reaction method and degenerate oligonucleotide primers based on the similar sequences in the transmembrane-6 and -7 regions of the serotonin-5A, the serotonin-7, and the dopamine D2, D3 and D4 receptors. This resulted in one of the clones having a 115 bp fragment, of which 89% of the bases were identical to the transmembrane-6 and -7 regions of the serotonin-7 receptor sequence. The fragment was radiolabelled and used to screen a human fetal brain cDNA library. A novel cDNA clone of 1326 bp was isolated. Based on the nucleotide sequence, 88% of the bases in this sequence of the pseudogene are identical to the human serotonin-7 receptor coding sequence. However, compared to the serotonin-7 receptor DNA sequence, the pseudogene sequence has nucleotide deletions and insertions, resulting in frame-shifts and stop codons. It was concluded that this sequence represented a pseudogene related to the serotonin-7 receptor gene.