Expression of Cbl-interacting protein of 85 kDa in MPTP mouse model of Parkinson's disease and 1-methyl-4-phenyl-pyridinium ion-treated dopaminergic SH-SY5Y cells

The newly discovered Cbl-interacting protein of 85 kDa (CIN85) is involved in many cellular processes, but its functions in the brain and in neurodegenerative diseases remain unclear. In this paper, we investigated the distribution of CIN85 protein in different regions of adult mouse brain using Western blot analysis and immunohistochemistry, and found that CIN85 was ubiquitously expressed in mouse brain. In the striatum and substantia nigra, two regions most deeply affected in Parkinson's disease, the level of CIN85 protein was relatively high. In the MPTP mouse model of Parkinson's disease, the expression of CIN85 in the striatum and substantia nigra was complicated. But in 1-methyl-4-phenyl-pyridinium ion-treated human dopaminergic SH-SY5Y cells, the expression of CIN85 increased dramatically. Knocking down of CIN85 by short hairpin RNA reduced SH-SY5Y cell death. Therefore, CIN85 might play different roles in the dopaminergic cell line and in the nigrostriatum of mouse brain under neurotoxin challenge.     

Differential and gonad stage-dependent roles of kisspeptin1 and kisspeptin2 in reproduction in the modern teleosts, morone species

Kisspeptin is an important regulator of reproduction in many vertebrates. The involvement of the two kisspeptins, Kiss1 and Kiss2, and their receptors, Gpr54-1 and Gpr54-2, in controlling reproduction was studied in the brains of the modern teleosts, striped and hybrid basses. In situ hybridization and laser capture microdissection followed by quantitative RT (QRT)-PCR detected coexpression of kiss1 and kiss2 in the hypothalamic nucleus of the lateral recess. Neurons expressing gpr54-1 and gpr54-2 were detected in several brain regions. In the preoptic area, gpr54-2 was colocalized in GnRH1 neurons while gpr54-1 was expressed in cells attached to GnRH1 fibers, indicating two different modes of GnRH1 regulation. The expression of all four genes was measured in the brains of males and females at different life stages using QRT-PCR. The levels of kiss1 and gpr54-1 mRNA, the latter being expressed in minute levels, were consistently lower than those of kiss2 and gpr54-2. While neither gene's expression increased at prepuberty, all were dramatically elevated in mature females. The levels of kiss2 mRNA increased also in mature males. Kiss1 peptide was less potent than Kiss2 in elevating plasma luteinizing hormone levels and in up-regulating gnrh1 and gpr54-2 expression in prepubertal hybrid bass in vivo. In contrast, during recrudescence, Kiss1 was more potent than Kiss2 in inducing luteinizing hormone release, and Kiss2 down-regulated gnrh1 and gpr54-2 expression. This is the first report in fish to demonstrate the alternating actions and the importance of both neuropeptides for reproduction. The organization of the kisspeptin system suggests a transitional evolutionary state between early to late evolving vertebrates.     

Properties of Bacillus megaterium and Bacillus subtilis mutants which lack the protease that degrades small, acid-soluble proteins during spore germination.

During germination of spores of Bacillus species the degradation of the spore's pool of small, acid-soluble proteins (SASP) is initiated by a protease termed GPR, the product of the gpr gene. Bacillus megaterium and B. subtilis mutants with an inactivated gpr gene grew, sporulated, and triggered spore germination as did gpr+ strains. However, SASP degradation was very slow during germination of gpr mutant spores, and in rich media the time taken for spores to return to vegetative growth (defined as outgrowth) was much longer in gpr than in gpr+ spores. Not surprisingly, gpr spores had much lower rates of RNA and protein synthesis during outgrowth than did gpr+ spores, although both types of spores had similar levels of ATP. The rapid decrease in the number of negative supertwists in plasmid DNA seen during germination of gpr+ spores was also much slower in gpr spores. Additionally, UV irradiation of gpr B. subtilis spores early in germination generated significant amounts of spore photoproduct and only small amounts of thymine dimers (TT); in contrast UV irradiation of germinated gpr+ spores generated almost no spore photoproduct and three to four times more TT. Consequently, germinated gpr spores were more UV resistant than germinated gpr+ spores. Strikingly, the slow outgrowth phenotype of B. subtilis gpr spores was suppressed by the absence of major alpha/beta-type SASP. These data suggest that (i) alpha/beta-type SASP remain bound to much, although not all, of the chromosome in germinated gpr spores; (ii) the alpha/beta-type SASP bound to the chromosome in gpr spores alter this DNA's topology and UV photochemistry; and (iii) the presence of alpha/beta-type SASP on the chromosome is detrimental to normal spore outgrowth.     

人孤儿受体GPR81分子克隆、组织分布及表达工程细胞株的建立

采用PCR技术分别从人全血基因组DNA及引产胚胎肾组织cDNA中扩增得到gpr81的全长cDNA序列(1041bp),运用生物信息学手段绘制该基因的分子进化树,显示该基因的氨基酸序列与烟酸受体同源性最高;然后,采用RT-PCR法分析该基因表达的组织分布,组织表达谱显示该基因在多种组织均有表达,以心脏及肝脏组织为最高;利用分子克隆手段构建含6×组氨酸(His)标签蛋白的真核表达载体pcDNA3·1(-)/his-myc-A-gpr81,通过脂质体介导,将该重组质粒转染CHO-K1细胞,RT-PCR证实该基因已整合入CHO-K1细胞的基因组中,Western-blot表明GPR81在CHO-GPR81工程细胞株中有表达。组织表达谱的检测和工程细胞株的建立为进一步研究该受体的生物学功能奠定了基础。     

Ataxin-2 associates with the endocytosis complex and affects EGF receptor trafficking

Ataxin-2 is a novel protein, where the unstable expansion of an internal polyglutamine domain can cause the neurodegenerative disease Spinocerebellar Ataxia type 2 (SCA2). To elucidate its cellular function, we have used full-length ataxin-2 as bait in a yeast two-hybrid screen of human adult brain cDNA. As binding partners we found endophilin A1 and A3, two brain-expressed members of the endophilin A family involved in synaptic vesicle endocytosis. Co-immunoprecipitation studies confirmed the binding of these proteins as an endogenous complex in mouse brain. In vitro binding experiments narrowed the binding interfaces down to two proline-rich domains on ataxin-2, which interacted with the SH3 domain of endophilin A1/A3. Ataxin-2 and endophilin associated at the endoplasmic reticulum as well as at the plasma membrane as determined by immunofluorescence microscopy of transfected cell lines, and by centrifugation fractionation studies of mouse brain. Importantly, the pattern observed in transfected cells was conserved in rat hippocampal neurons. In the mouse brain, an association of ataxin-2 with endocytic proteins such as the adaptor CIN85 and the ubiquitin ligase c-Cbl was also demonstrated. GST pull-down assays showed ataxin-2 to directly interact with the SH3 domains A and C of CIN85 and with the SH3 domain of Src, a kinase activated after receptor stimulation. Functional studies demonstrated that ataxin-2 affects endocytic trafficking of the epidermal growth factor receptor (EGFR). Taken together, these data implicate ataxin-2 to play a role in endocytic receptor cycling.     

Sphingosine 1-phosphate is a ligand of the human gpr3, gpr6 and gpr12 family of constitutively active G protein-coupled receptors

Five G protein-coupled receptors (GPCRs) for the lysophospholipid sphingosine 1-phosphate (S1P) have been cloned and characterized so far. We report here about the identification of gpr3, gpr6 and gpr12 as additional members of the S1P-GPCR family. When expressed transiently in HEK293 cells, gpr3, gpr6 and gpr12 confer constitutive activation of adenylate cyclase (AC) similar in amplitude to that seen with fully activated G(alpha)(s)-coupled receptors. Culturing the transfected cells in medium with charcoal-stripped serum (devoid of lipids) significantly reduces cyclic adenosine monophosphate (cAMP) levels, suggesting a lipid-like ligand. A library containing 200 bioactive lipids was applied in functional assays recording intracellular Ca(2+) mobilization. S1P and dihydrosphingosine 1-phosphate (DHS1P) were identified as functional activators exhibiting nanomolar EC(50) values. In the presence of the S1P and LPA receptor antagonist suramin, gpr3-, gpr6- and gpr12-mediated intracellular Ca(2+) mobilization via S1P is enhanced. Besides constitutive activation of G(alpha)(s) type of G proteins, all three receptors are capable of constitutively activating inhibitory G(alpha)(i/o) proteins: (i) in the presence of pertussis toxin, gpr3-, gpr6- and gpr12-mediated stimulation of AC is enhanced; and (ii) overexpression of G(alpha)(i) significantly reduces the stimulatory action on intracellular cAMP levels. Agonist (S1P)-mediated internalization can be visualized in intact HEK293 cells using a gpr6 green fluorescent protein (GFP) fusion protein. In summary, our data suggest that gpr3, gpr6 and gpr12 are a family of constitutively active receptors with dual coupling to G(alpha)(s) and G(alpha)(i) type of G proteins. Constitutive activation of AC and mobilization of [Ca(2+)](i) can be modulated by the sphingophospholipids S1P and DHS1P, adding three additional members to the family of S1P receptors.     

Structure and expression of the chicken beta nerve growth factor gene.

The 3' exon of the chicken beta nerve growth factor (NGF) gene was isolated by the use of a murine cDNA probe. DNA sequence analysis of the clone suggests a mature chicken NGF protein of 118 amino acids, showing approximately 85% homology to mouse and human NGF. In addition to this conservation of the mature NGF, parts of the propeptide and the untranslated 3' end of the NGF gene are also highly homologous in chicken, human and mouse. Therefore, these sequences probably subserve important functions. Expression of NGF mRNA in various chicken tissues was examined by RNA blot analysis with a chicken NGF probe. A single mRNA of 1.3 kb was detected at high levels in heart and brain of 10-week-old roosters, and, at lower levels in spleen, liver and skeletal muscle. These data suggest a correlation between NGF expression and the density of sympathetic innervation in peripheral organs, in analogy with findings for mammalian tissues. In the adult avian brain, NGF mRNA is found at higher concentration in the optic tectum and cerebellum than in the cortex and hippocampus. This pattern of NGF expression differs from that previously described for the rat brain. During late stages of development (day 18), NGF mRNA was expressed both in heart and brain of embryos but at lower levels than in the adult.     

Gpr1, a putative G-protein-coupled receptor, regulates morphogenesis and hypha formation in the pathogenic fungus Candida albicans

In response to various extracellular signals, the morphology of the human fungal pathogen Candida albicans switches from yeast to hypha form. Here, we report that GPR1 encoding a putative G-protein-coupled receptor and GPA2 encoding a Galpha subunit are required for hypha formation and morphogenesis in C. albicans. Mutants lacking Gpr1 (gpr1/gpr1) or Gpa2 (gpa2/gpa2) are defective in hypha formation and morphogenesis on solid hypha-inducing media. These phenotypic defects in solid cultures are suppressed by exogenously added dibutyryl-cyclic AMP (dibutyryl-cAMP). Biochemical studies also reveal that GPR1 and GPA2 are required for a glucose-dependent increase in cellular cAMP. An epistasis analysis indicates that Gpr1 functions upstream of Gpa2 in the same signaling pathway, and a two-hybrid assay reveals that the carboxyl-terminal tail of Gpr1 interacts with Gpa2. Moreover, expression levels of HWP1 and ECE1, which are cAMP-dependent hypha-specific genes, are reduced in both mutant strains. These findings support a model that Gpr1, as well as Gpa2, regulates hypha formation and morphogenesis in a cAMP-dependent manner. In contrast, GPR1 and GPA2 are not required for hypha formation in liquid fetal bovine serum (FBS) medium. Furthermore, the gpr1 and the gpa2 mutant strains are fully virulent in a mouse infection. These findings suggest that Gpr1 and Gpa2 are involved in the glucose-sensing machinery that regulates morphogenesis and hypha formation in solid media via a cAMP-dependent mechanism, but they are not required for hypha formation in liquid medium or during invasive candidiasis.     

Generation of cytotoxic T cells against virus-infected human brain macrophages in a murine model of HIV-1 encephalitis

HIV-1 encephalitis (HIVE) and its associated dementia can occur in up to 20% of infected individuals, usually when productive viral replication in brain mononuclear phagocytes (macrophages and microglia) and depletion of CD4(+) T lymphocytes are most significant. T cells control viral replication through much of HIV-1 disease, but how this occurs remains incompletely understood. With this in mind, we studied HIV-1-specific CTL responses in a nonobese diabetic (NOD)-SCID mouse model of HIVE. HIV-1-infected monocyte-derived macrophages (MDM) were injected into the basal ganglia after syngeneic immune reconstitution by HLA-A*0201-positive human PBL to generate a human PBL-NOD-SCID HIVE mouse. Engrafted T lymphocytes produced HIV-1gag- and HIV-1pol-specific CTL against virus-infected brain MDM within 7 days. This was demonstrated by tetramer staining of human PBL in mouse spleens and by IFN-gamma ELISPOT. CD8, granzyme B, HLA-DR, and CD45R0 Ag-reactive T cells and CD79alpha-positive B cells migrated to and were in contact with human MDM in brain areas where infected macrophages were abundant. The numbers of productively infected MDM were markedly reduced (>85%) during 2 wk of observation. The human PBL-NOD-SCID HIVE mouse provides a new tool for studies of cellular immune responses against HIV-1-infected brain mononuclear phagocytes during natural disease and after vaccination.     

The cloning and characterization of a second brain enzyme with NAAG peptidase activity

The peptide neurotransmitter N-acetylaspartylglutamate is inactivated by extracellular peptidase activity following synaptic release. It is speculated that the enzyme, glutamate carboxypeptidase II (GCPII, EC 3.14.17.21), participates in this inactivation. However, CGCPII knockout mice appear normal in standard neurological tests. We report here the cloning and characterization of a mouse enzyme (tentatively identified as glutamate carboxypeptidase III or GCPIII) that is homologous to an enzyme identified in a human lung carcinoma. The mouse peptidase was cloned from two non-overlapping EST clones and mouse brain cDNA using PCR. The sequence (GenBank, AY243507) is 85% identical to the human carcinoma enzyme and 70% homologous to mouse GCPII. GCPIII sequence analysis suggests that it too is a zinc metallopeptidase. Northern blots revealed message in mouse ovary, testes and lung, but not brain. Mouse cortical and cerebellar neurons in culture expressed GCPIII message in contrast to the glial specific expression of GCPII. Message levels of GCPIII were similar in brains obtained from wild-type mice and mice that are null mutants for GCPII. Chinese hamster ovary (CHO) cells transfected with rat GCPII or mouse GCPIII expressed membrane bound peptidase activity with similar V(max) and K(m) values (1.4 micro m and 54 pmol/min/mg; 3.5 micro m and 71 pmol/min/mg, respectively). Both enzymes are activated by a similar profile of metal ions and their activities are blocked by EDTA. GCPIII message was detected in brain and spinal cord by RT-PCR with highest levels in the cerebellum and hippocampus. These data are consistent with the hypothesis that nervous system cells express at least two differentially distributed homologous enzymes with similar pharmacological properties and affinity for NAAG.     

Cloning and complementation analysis of the Escherichia coli gpr locus, influencing DNA replication of certain lamdoid phages]

Escherichia coli DNA fragments which suppressed gpr27 and gpr2 mutations in the earlier proposed gprA and gprB genes, respectively, were cloned within phage vectors. Mutations gpr2 and gpr27 restrict DNA replication of some lambdoid phages and are located in the region of dnaK, J genes. DNA-DNA hybridization showed that the cloned fragments correspond to the region where gpr mutations were genetically mapped and, in some cases, do not include dnaK, J genes. These results provide the evidence that gprA and gprB genes may be physically separated from dnaK, J genes.     

G protein-coupled receptor Gpr4 senses amino acids and activates the cAMP-PKA pathway in Cryptococcus neoformans

The Galpha protein Gpa1 governs the cAMP-PKA signaling pathway and plays a central role in virulence and differentiation in the human fungal pathogen Cryptococcus neoformans, but the signals and receptors that trigger this pathway were unknown. We identified seven putative proteins that share identity with known G protein-coupled receptors (GPCRs). One protein, Gpr4, shares limited sequence identity with the Dictyostelium discoideum cAMP receptor cAR1 and the Aspergillus nidulans GPCR protein GprH and also shares structural similarity with the Saccharomyces cerevisiae receptor Gpr1. gpr4 mutants exhibited reduced capsule production and mating defects, similar to gpa1 mutants, and exogenous cAMP suppressed both gpr4 mutant phenotypes. Epistasis analysis provides further evidence that Gpr4 functions upstream of the Galpha subunit Gpa1. Gpr4-Gpr4 homomeric interactions were observed in the yeast two-hybrid assay, and Gpr4 was shown to physically interact with Gpa1 in the split-ubiquitin system. A Gpr4::DsRED fusion protein was localized to the plasma membrane and methionine was found to trigger receptor internalization. The analysis of intracellular cAMP levels showed that gpr4 mutants still respond to glucose but not to certain amino acids, such as methionine. Amino acids might serve as ligands for Gpr4 and could contribute to engage the cAMP-PKA pathway. Activation of the cAMP-PKA pathway by glucose and amino acids represents a nutrient coincidence detection system shared in other pathogenic fungi.     

人源孤儿G蛋白偶联受体hGPCRc的分子克隆及其初步鉴定

孤儿G蛋白偶联受体 (orphanGprotein coupledreceptors ,oGPCRs)是最重要的潜在药物靶点 ,对于创新药物研究意义重大 .根据已有文献及相关基因数据库提供的信息 ,利用RT PCR从人结肠组织获得oGPCR某一成员的氨基酸编码序列 ,大小为 10 14bp ,而且与GenBank已登录序列(AB0 835 98)完全一致 ,称之为hGPCRc ;又用相同的引物以健康志愿者血液基因组DNA作为模板进行PCR扩增 ,亦得到同样大小的DNA序列 ,测序显示二者个别碱基不一致 ,但所对应氨基酸序列并无差异 .另外 ,RT PCR对人源部分组织及细胞系的检测结果显示 :hGPCRc在人脑组织表达最高 ,结肠次之 ,其它组织或细胞系如胃、血液、肝、肺、上皮未检测到该基因的表达 .利用相关软件对hGPCRc分别结果显示 :hGPCRc定位于人染色体 13q32 3,与小鼠、大鼠的对应物序列同源性高达85 % ,但与人源其他已知基因的同源性较低 ,对应的氨基酸序列组成了 7个跨膜区段的结构域 .因此 ,hGPCRc符合GPCR的结构特点 ,应为人类oGPCRs的新成员 .     

Phospholipase C delta-type consists of three isozymes: bovine PLCdelta2 is a homologue of human/mouse PLCdelta4

To date, 12 phospholipase C (PLC) isozymes have been identified in mammals, and they are divided into five classes, beta-, gamma-, delta-, epsilon-, and zeta-type. PLCdelta-type is reported to be composed of four isozymes, PLCdelta1-delta4. Here we report that a screening for mouse PLCdelta2 from a BAC library with primers that amplify a specific region of bovine PLCdelta2 resulted in isolation of one clone containing the mouse PLCdelta4 gene. Furthermore, a database search revealed that there is only one gene corresponding to PLCdelta2 and PLCdelta4 in the mouse and human genomes, indicating that bovine PLCdelta2 is a homologue of human and mouse PLCdelta4. However, PLCdelta2 Western blot analysis with a widely used commercial anti-PLCdelta2 antibody showed an expression pattern distinct from that of PLCdelta4 in wild-type mice. In addition, an 80-kDa band, which was recognized by antibody against PLCdelta2, was smaller than an 85-kDa band detected by anti-PLCdelta4 antibody, and the 80-kDa band was detectable in lysates of brain, testis, and spleen from PLCdelta4-deficient mice. We also found that immunoprecipitates from brain lysates with this PLCdelta2 antibody contained no PLC activity. From these data, we conclude that bovine PLCdelta2 is a homologue of human and mouse PLCdelta4, and that three isozymes (delta1, delta3, and delta4) exist in the PLCdelta family.     

Isolation and genetic analysis of bacterial mutations gpr blocking the replication of various lambda phages

Bacterial mutations affecting phi 80 DNA replication have been isolated and designated gpr2, 27. The main difference between gpr2, 27 and groP, grp mutations described earlier is that mutations gpr2, 27 are not essential for lambda replication. The mutations have been mapped between thr and leu loci in the vicinity of mutations groPC756 (dnaK gene) and groPC259 (dnaJ gene), their order being: thr-gpr2-groPC756-groPC259-gpr27. Complementation analysis using transducing phages suggested that mutations gpr2, 27 are localized in genes unknown earlier, outside dnaK and dnaJ genes.     

达氏鲟gpr54基因的克隆及Kisspeptin注射对其表达的影响

G蛋白偶联受体54(GPR54, G protein-coupled receptor 54)是kisspeptin (Kiss)的受体蛋白。Kisspeptin/GPR54系统通过调节促性腺激素释放激素(GnRH)的活性来参与鱼类生殖调控。为了研究Kisspeptin/GPR54系统对达氏鲟(Acipenser dabryanus)GnRH的调控功能, 克隆得到达氏鲟2个gpr54基因的全长cDNA序列, 命名为dsgpr54-1及dsgpr54-2, 分别编码379和368个氨基酸。氨基酸序列比对及进化树分析表明, 达氏鲟Gpr54与四足动物Gpr54序列一致性较高, 亲缘关系较近。荧光定量PCR研究发现, dsgpr54-1的转录本在精巢、卵巢、下丘脑、垂体、中脑及端脑等组织中均有表达, 且在下丘脑中转录水平最高; 而dsgpr54-2仅在脑组织中转录, 且在垂体、中脑及下丘脑中表达丰度均较高。为了研究Gpr54是否可以与其配体Kisspeptin结合调控下丘脑中gnrh基因的表达, 分别合成了达氏鲟Kiss-1和Kiss-2的核心十肽(10 nmol/L、1000 nmol/L), 腹腔注射到9月龄达氏鲟。结果表明, 不同浓度Kiss-1、Kiss-2注射均引起gpr54基因表达量升高, 并且10 nmol/L Kiss-2注射能够显著促进dsgpr54-2的表达(P<0.05)。另外, 不同浓度Kiss-1注射均造成了gnrh转录水平的下降; 而10 nmol/L Kiss-2注射使得gnrh1表达量上升, 而gnrh2的表达量下降, 1000 nmol/L Kiss-2注射则引起gnrh1表达量的下降, gnrh2的表达量没有显著变化。上述研究结果表明, 达氏鲟gpr54基因均能与其配体kiss-1、kiss-2相结合, 但表现出一定的受体-配体选择性差异。Kiss-1、Kiss-2通过激活Gpr54的活性, 调控下丘脑中gnrh基因的表达, 且其调控功能存在差异。     

N-glycosylation patterns of HSA/CD24 from different cell lines and brain homogenates: a comparison

N-glycans of the mouse glycoprotein HSA and its human analogue CD24 from lymphoblastoma, neuroblastoma and astrocytoma cell lines as well as from mouse brain homogenate were analysed and compared to each other and to the N-glycosylation pattern of total glycoproteins from mouse and human brain. The N-glycans were released from PVDF-blotted HSA or CD24 and separated on Carbograph SPE into neutral and acid glycans. The naturally neutral glycan fraction and the fraction of glycans rendered neutral after neuraminidase treatment were analysed without further purification by MALDI-MS. In each fraction, about 25 molecular ions with an intensity >10% of the base peak were identified which corresponded to glycans with distinct isobaric monosaccharide compositions. Comparison of the neutral and desialylated glycans revealed some similarities between the samples analysed, but also clear differences. HSA and CD24 from all cell lines express almost no neutral N-glycans with two or more fucose in contrast to brain HSA and glycoproteins from mouse and human brain. The lack of extensive fucosylation was also observed for desialylated glycans of HSA and CD24 from all cell lines analysed except for CD24 from a human neuroblastoma cell line which exhibits like total human and mouse brain glycoproteins a large variety of highly fucosylated, higher branched N-glycans. HSA from mouse brain carries in addition desialylated non-fucosylated glycans of high abundance which were detected, if at all, only at low intensity in all other samples analysed suggesting that they may be implicated in specific functions of mouse brain HSA. Therefore, a rapid assessment of similarities or differences between glycosylation patterns of a glycoprotein isolated from different sources is possible using methods as described here.     

Glucose transporter expression in brain. cDNA sequence of mouse GLUT3, the brain facilitative glucose transporter isoform, and identification of sites of expression by in situ hybridization.

Complementary DNAs encoding the mouse GLUT3/brain facilitative glucose transporter have been isolated and sequenced. The predicted amino acid sequence indicates that mouse GLUT3 is composed of 493 amino acids and has 83 and 89% identity and similarity, respectively, to the sequence of human GLUT3. In contrast to human GLUT3 mRNA, which can be readily detected by RNA blotting in all human tissues that have been examined, mouse GLUT3 mRNA was only present at significant levels in brain. In situ hybridization showed differential expression of GLUT3 mRNA in several regions of adult mouse brain. Specific expression was observed in the hippocampus, with GLUT3 mRNA levels being higher in areas CA1 to CA3 than in the dentate gyrus. It was also detected in the Purkinje cell layer of the cerebellum and in the cerebral cortex, with higher expression in the piriform cortex than in other regions of the cortex. Antisera to mouse GLUT3 immunoblotted a series of proteins of 45-50 kDa in mouse brain plasma membranes. These results are consistent with GLUT3 being a neuronal glucose transporter.