Identification of the active gene coding for the metastasis-associated 37LRP/p40 multifunctional protein

Looking into laminin receptor: critical discussion regarding the non-integrin 37/67-kDa laminin receptor/RPSA protein

The 37/67-kDa laminin receptor (LAMR/RPSA) was originally identified as a 67-kDa binding protein for laminin, an extracellular matrix glycoprotein that provides cellular adhesion to the basement membrane. LAMR has evolutionary origins, however, as a 37-kDa RPS2 family ribosomal component. Expressed in all domains of life, RPS2 proteins have been shown to have remarkably diverse physiological roles that vary across species. Contributing to laminin binding, ribosome biogenesis, cytoskeletal organization, and nuclear functions, this protein governs critical cellular processes including growth, survival, migration, protein synthesis, development, and differentiation. Unsurprisingly given its purview, LAMR has been associated with metastatic cancer, neurodegenerative disease and developmental abnormalities. Functioning in a receptor capacity, this protein also confers susceptibility to bacterial and viral infection. LAMR is clearly a molecule of consequence in human disease, directly mediating pathological events that make it a prime target for therapeutic interventions. Despite decades of research, there are still a large number of open questions regarding the cellular biology of LAMR, the nature of its ability to bind laminin, the function of its intrinsically disordered C-terminal region and its conversion from 37 to 67 kDa. This review attempts to convey an in-depth description of the complexity surrounding this multifaceted protein across functional, structural and pathological aspects.

Molecular characterization of the full-length coding sequence of the caprine laminin receptor gene (RPSA)

Scrapie is a prion disease in sheep and goats. Ribosomal protein SA (RPSA), also called 37 kDa laminin receptor precursor/67 kDa laminin receptor has been demonstrated to be a putative cell surface receptor for prion. To investigate the caprine RPSA, we cloned the full-length coding sequence of the gene of goat and submitted it to GenBank. The length of the open reading frame is 888 bp, encoding 295 amino acids. The putative amino acid sequence is highly similar to that of other mammals. The caprine amino acid sequence of RPSA is shown to be identical to the sequence of species susceptible to scrapie at positions 241, 272, and 291. The phylogenetic tree analysis revealed that the genetic distance between sheep and goat is the smallest. Moreover, RT-PCR results of 11 tissues indicated that RPSA mRNA is expressed in all selected caprine tissues.

Upregulation in rat spinal cord microglia of the nonintegrin laminin receptor 37 kDa-LRP following activation by a traumatic lesion or peripheral injury

The molecular mechanisms triggering microglial activation after injury to the central nervous system, involving cell-extracellular matrix interactions and cytokine signaling, are not yet fully understood. Here, we report that resident microglia in spinal cord express low levels of the non-integrin laminin receptor precursor (LRP), also found on certain neurons and glial cells in the peripheral nervous system. 37LRP/p40 and its 67-kDa isoform laminin receptor (LR) were the first high-affinity laminin binding proteins identified. While the role of laminin receptor was later attributed to integrins, LRP/LR gained new interest as receptors for prions, and their interaction with laminin seems important for migration of metastatic cancer cells. Using immunohistochemistry and Western blotting, we demonstrate that traumatic spinal cord injury leads to a strong and rapid increase in LRP levels in relation to activated microglia/macrophages. Associated with laminin re-expression in the lesion epicenter, LRP-positive microglia/macrophages exhibit a rounded, ameboid-like shape characteristic of phagocytic cells, whereas in more distant loci they reveal a hypertrophied cell body and short ramifications. The same morphological difference is observed in vitro for purified microglia cultured with or without laminin. Strong, transient upregulation of LRP by activated spinal cord microglia is also induced by transection of the sciatic nerve that affects the spinal cord circuitry without blood-brain barrier dysruption. LRP expression is maximal by 1 week post-lesion, before becoming restricted to dorsal and ventral horns, sites of major structural reorganization. Our findings strongly suggest the involvement of LRP in lesion-induced activation and migration of microglia.

Green tea (−)-epigallocatechin gallate inhibits insulin stimulation of 3T3-L1 preadipocyte mitogenesis via the 67-kDa laminin receptor pathway

Insulin and (−)-epigallocatechin gallate (EGCG) have been reported to regulate fat cell mitogenesis and adipogenesis, respectively. This study investigated the pathways involved in EGCG modulation of insulin-stimulated mitogenesis in 3T3-L1 preadipocytes. EGCG inhibited insulin stimulation of preadipocyte proliferation in a dose- and time-dependent manner. EGCG also suppressed insulin-stimulated phosphorylation of the insulin receptor-β, insulin receptor (IR) substrates 1 and 2 (IRS1 and IRS2), and mitogen-activated protein kinase pathway proteins, RAF1, MEK1/2, and ERK1/2, but not JNK. Furthermore, EGCG inhibited the association of IR with the IRS1 and IRS2 proteins, but not with the IRS4 protein. These data suggest that EGCG selectively affects particular types of IRS and MAPK family members. Generally, EGCG was more effective than epicatechin, epicatechin gallate, and epigallocatechin in modulating insulin-stimulated mitogenic signaling. We identified the EGCG receptor [also known as the 67-kDa laminin receptor (67LR)] in fat cells and found that its expression was sensitive to growth phase, tissue type, and differentiation state. Pretreatment of preadipocytes with 67LR antiserum prevented the effects of EGCG on insulin-stimulated phosphorylation of IRS2, RAF1, and ERK1/2 and insulin-stimulated preadipocyte proliferation (cell number and bromodeoxyuridine incorporation). Moreover, EGCG tended to increase insulin-stimulated associations between the 67LR and IR, IRS1, IRS2, and IRS4 proteins. These data suggest that EGCG mediates anti-insulin signaling in preadipocyte mitogenesis via the 67LR pathway.

Cloning and characterization of full-length coding sequence (CDS) of the ovine 37/67-kDa laminin receptor (RPSA)

The 37-kDa Laminin Receptor Precursor (LRP)/67-kDa Laminin Receptor (LR), also known as ribosomal protein SA (RPSA), had been identified as a putative cell surface receptor for prions. Herein, we isolated the full-length coding sequence (CDS) of the ovine 37/67-kDa LRP/LR gene and submitted it to the GenBank under accession number EF649775. The open reading frame (ORF) of the 37/67-kDa LRP/LR CDS is 885 bp in length, containing six exons encoding a protein of 295 amino acids. The nucleotide sequence presented here is well coincided with the whole ovine genome of the 37/67-kDa LRP/LR previously published. Moreover, we identified four novel single nucleotide polymorphism sites (SNPs) at position 324 in exon 4, positions at 809, 875, and 881 in exon 7, respectively. Further, based on the deduced amino acid sequence alignment of the 37/67-kDa LRP/LR from human, cattle, mice, pig, chicken, and sheep, we also identified three polymorphic amino acid sites (PAAs) at residues 241, 272, and a novel site at residue 270 in the putative indirect prion protein (PrP) interaction region (180-285) on 37/67-kDa LRP/LR. Prediction of protein secondary structure further indicated that PAAs at residues 241, 270 and 272 may cause protein conformation changes as predicted, which may affect on the binding with prion protein. In addition, multiple-tissues RT-PCR results revealed that 37/67-kDa LRP/LR mRNA is expressed in all the 11 selected ovine tissues.

Structural and functional analysis of the ovine laminin receptor gene (RPSA): Possible involvement of the LRP/LR protein in scrapie response

Scrapie is a prion disease affecting sheep and goats. Susceptibility to this neurodegenerative disease shows polygenic variance. The involvement of the laminin receptor (LRP/LR) in the metabolism and propagation of prions has previously been demonstrated. In the present work, the ovine laminin receptor gene (RPSA) was isolated, characterized, and mapped to ovine chromosome OAR19q13. Real-time RT-PCR revealed a significant decrease in RPSA mRNA in cerebellum after scrapie infection. Conversely, no differences were detected in other brain regions such as diencephalon and medulla oblongata. Association analysis showed that a polymorphism reflecting the presence of a RPSA pseudogene was overrepresented in a group of sheep resistant to scrapie infection. No amino acid change in the LRP/LR protein was found in the 126 sheep analyzed. However, interesting amino acid positions (241, 272, and 290), which could participate in the species barrier to scrapie and maybe to other transmissible spongiform encephalopathies, were identified by comparing LRP/LR sequences from various mammals with variable levels of resistance to scrapie.

Characterization of the porcine multicopy ribosomal protein SA/37-kDa laminin receptor gene family

Prions represent a new class of infectious agents. The pathogenic prion protein (PrPSc) is known as the trigger of bovine transmissible spongiform encephalopathy (TSE). By contrast, an oral transmission of PrPSc and an ensuing infection seems to be blocked in non-ruminants such as pigs. Several investigations postulate that the ribosomal protein SA (RPSA) previously named 37-kDa laminin receptor precursor (LRP)/67-kDa laminin receptor (LR) is the candidate for binding and internalization of externally added cellular prion protein in the gut. We isolated a porcine ribosomal protein SA cDNA that consists of 1064 bp with an open reading frame of 885 bp encoding a 295 aa protein. The alignment of vertebrate ribosomal protein SA sequences displayed interspecies differences between cattle and pigs at positions 241 and 272 in the putative indirect PrP interaction site (aa 180-285) on RPSA. A PAC library screen revealed the existence of two processed ribosomal protein SA pseudogenes (RPSAP1 and RPSAP3) and of one non-processed pseudogene (RPSAP2). The pseudogenes have been assigned to SSC6 and SSC1 by hybrid panel analyses and FISH. Compared with the porcine cDNA 3, 7, and 13 insdels, 36, 25, and 57 single nucleotide exchanges and 6, 10, and 8 premature stop codons have been deciphered for RPSAP1, RPSAP2, and RPSAP3. In the 5', 3', and intron like regions, 2 (RPSAP1), 10 (RPSAP2), and 4 (RPSAP3) repeats have been detected. Basically, the repeats belong to one of the class/family LINE/L1, SINE/tRNA-Glu and DNA/MER1_type. We conclude that the pig genome contains multiple copies of the RPSA sequence probably as a consequence to maintain the multifunctionality of the mature protein.

Gene expression profiling of chicken primordial germ cell ESTs

BACKGROUND

Germ cells are the only cell type that can penetrate from one generation to next generation. At the early embryonic developmental stages, germ cells originally stem from primordial germ cells, and finally differentiate into functional gametes, sperm in male or oocyte in female, after sexual maturity. This study was conducted to investigate a large-scale expressed sequence tag (EST) analysis in chicken PGCs and compare the expression of the PGC ESTs with that of embryonic gonad.

RESULTS

We constructed 10,851 ESTs from a chicken cDNA library of a collection of highly separated embryonic PGCs. After chimeric and problematic sequences were filtered out using the chicken genomic sequences, there were 5,093 resulting unique sequences consisting of 156 contigs and 4,937 singlets. Pearson chi-square tests of gene ontology terms in the 2nd level between PGC and embryonic gonad set showed no significance. However, digital gene expression profiling using the Audic's test showed that there were 2 genes expressed significantly with higher number of transcripts in PGCs compared with the embryonic gonads set. On the other hand, 17 genes in embryonic gonads were up-regulated higher than those in the PGC set.

CONCLUSION

Our results in this study contribute to knowledge of mining novel transcripts and genes involved in germline cell proliferation and differentiation at the early embryonic stages.

Erythropoietin preconditioning in neuronal cultures: signaling, protection from in vitro ischemia, and proteomic analysis

In this study we confirmed the presence of the erythropoietin (EPO) receptor on both cultured cortical neurons and PC12 cells and showed that EPO can induce changes in p38, ERK, and JNK signaling molecules in these cells. We induced EPO preconditioning in cortical neuronal cultures that protected neurons from a subsequent in vitro ischemic insult (transient oxygen-glucose deprivation). To investigate downstream changes in protein expression in EPO-preconditioned cortical neuronal cultures, we used two-dimensional gel electrophoresis. Overall, EPO preconditioning resulted in protein up-regulation, and, from 84 of the most differentially expressed proteins selected for identification, the proteins or tentative proteins were identified in 57 cases, representing 40 different proteins. Different protein spots representing the same or closely related protein(s) occurred for 13 of the identified proteins and are likely to represent posttranslational modifications or proteolytic fragments of the protein. Two proteins (78-kD glucose-regulated protein and tropomyosin, fibroblast isoform 1) were detected in control neuronal cultures, but not following EPO preconditioning treatment, whereas one protein (40S ribosomal protein SA) was detected only following EPO preconditioning. Most of the other proteins identified had not previously been associated with EPO preconditioning and will aid in the understanding of EPO's neuroprotective response and possibly the development of new therapeutic interventions to inhibit neuronal death in acute and chronic neurodegenerative diseases.

37-kDa laminin receptor precursor modulates cytotoxic necrotizing factor 1-mediated RhoA activation and bacterial uptake

Cytotoxic necrotizing factor 1 (CNF1) is a bacterial toxin known to activate Rho GTPases and induce host cell cytoskeleton rearrangements. The constitutive activation of Rho GTPases by CNF1 is shown to enhance bacterial uptake in epithelial cells and human brain microvascular endothelial cells. However, it is unknown how exogenous CNF1 exhibits such phenotypes in eukaryotic cells. Here, we identified 37-kDa laminin receptor precursor (LRP) as the receptor for CNF1 from screening the cDNA library of human brain microvascular endothelial cells by the yeast two-hybrid system using the N-terminal domain of CNF1 as bait. CNF1-mediated RhoA activation and bacterial uptake were inhibited by exogenous LRP or LRP antisense oligodeoxynucleotides, whereas they were increased in LRP-overexpressing cells. These findings indicate that the CNF1 interaction with LRP is the initial step required for CNF1-mediated RhoA activation and bacterial uptake in eukaryotic cells.

Single-nucleotide polymorphism characterization in species with limited available sequence information: high nucleotide diversity revealed in the avian genome

As a case study for single-nucleotide polymorphism (SNP) identification in species for which little or no sequence information is available, we investigated several approaches to identifying SNPs in two passerine bird species: pied and collared flycatchers (Ficedula hypoleuca and F. albicollis). All approaches were successful in identifying sequence polymorphism and over 50 candidate SNPs per species were identified from approximately 9.1 kb of sequence. In addition, 17 sites were identified in which the frequency of alternative bases differed by > 50% between species (termed interspecific SNPs). Interestingly, polymorphism of microsatellite/intron loci in the source species appeared to be a positive predictor of nucleotide diversity in homologous flycatcher sequences. The overall nucleotide diversity of flycatchers was 2.3-2.7 x 10(-3), which is approximately 3-6 times higher than observed in recent studies of human SNPs. Higher nucleotide diversity in the avian genome could be due to the relatively older age of flycatcher populations, compared with humans, and/or a higher long-term effective population size.

LRP: a new adhesion molecule for endothelial and smooth muscle cells

We recently generated a monoclonal antibody that disrupted the association of endothelial cells with their target location during kidney development. Here, we purified the antigen of this monoclonal antibody to homogeneity using rat mesangial cell cytosol. Sequence revealed that it is a previously identified protein, termed the "laminin receptor precursor" (LRP). We found that this protein is expressed in most tissues, but immunocytochemistry revealed that it is present largely or entirely in blood vessels where it is located underneath endothelial cells and in between smooth muscle cells of the vascular wall. Vascular smooth muscle cells such as mesangial cells produce and secrete LRP into their extracellular matrix where it is present in several molecular weight forms. Endothelial cells produce very little if any of the protein, but they bind avidly to LRP-coated dishes. Anti-LRP antibodies prevent the binding of smooth muscle cells to uncoated plates, implying that cells that secrete it use it for attachment. In an assay for heterologous cell-to-cell interaction, antibodies to LRP inhibited the binding of smooth muscle cells to endothelial cells. Maturation and differentiation of blood vessels require interaction between endothelial and smooth muscle cells. LRP is a new component of the mesangial matrix, and we propose that it is an adhesion molecule that mediates an interaction between smooth muscle cells and endothelia.

Modulation of expression of ribosomal protein L7a (rpL7a) by ethanol in human breast cancer cells

Epidemiological studies indicate that there is a positive correlation between alcohol consumption and the risk of breast cancer. Experimental results demonstrate that ethanol is a tumor promoter and chronic ethanol exposure enhances metastasis and growth of breast cancer. The present study used an in vitro model to investigate the molecular mechanism(s) underlying tumor promoting effects of ethanol. With differential display reverse transcription polymerase chain reaction, we demonstrated that human ribosomal large subunit protein L7a (rpL7a) was an ethanol-responsive factor in T47D breast cancer cells. The results of northern blot hybridization revealed that the effect of ethanol on L7a expression was duration- and concentration-dependent. Initial exposure resulted in a 2-fold increase in rpL7a level, whereas a longer exposure period produced a down-regulation. Ethanol had little effect on the stability of rpL7a mRNA; however, the transcription rate of rpL7a was significantly increased by ethanol. Ethanol-induced up-regulation of rpL7a was not a simple stress response, because other stress inducers, such as heat shock, did not affect the expression of rpL7a. Furthermore, breast cancer cells expressed higher level of rpL7a than normal mammary epithelial cells. Ribosomal proteins are known to play an important role in translational regulation, and they have been implicated in the control of cellular transformation, tumor growth, aggressiveness and metastasis. Specially, rpL7a activates the trk oncogene by contributing an amino-terminal-activating sequence to the receptor kinase domain of trk. Thus, ethanol-induced alteration of rpL7a expression may mediate the promoting effects of ethanol on breast cancer development.

Molecular cloning of the RPS0 gene from Candida tropicalis

The Saccharomyces cerevisiae RPS0 A and B genes encode proteins essential for maturation of the 40S ribosomal subunit precursors. We have isolated a homologue of the RPS0 gene from Candida tropicalis, which we named CtRPS0. The C. tropicalis RPS0 encodes a protein of 261 amino acid residues with a predicted molecular weight of 28.65 kDa and an isoelectric point of 4.79. CtRps0p displays significant amino acid sequence homology with Rps0p from C. albicans, S. cerevisiae, Neurospora crassa, Schizosaccharomyces pombe, Pneumocystis carinii and higher organisms, such as human, mouse and rat. CtRPS0 on a high copy number vector can complement the lethal phenotype linked to the disruption of both RPS0 genes in S. cerevisiae. Southern blot analysis suggests that CtRPS0 is present at a single locus within the C. tropicalis genome.

Integrins as receptors for laminins

Laminins are a family of trimeric glycoproteins present in the extracellular matrix and the major constituents of basement membranes. Integrins are alpha beta transmembrane receptors that play critical roles in both cell-matrix and cell-cell adhesion. Several members of the integrin family, including alpha 1 beta 1, alpha 2 beta 1, alpha 3 beta 1, alpha 6 beta 1, alpha 7 beta 1 and alpha 6 beta 4 heterodimers serve as laminin receptors on a variety of cell types. This review summarizes recent advances in understanding the involvement of individual integrins in cell interactions with laminins and the roles of laminin-binding integrins in adhesion-mediated events in vertebrates, including embryonic development, cell migration and tumor cell invasiveness, cell proliferation and differentiation, as well as basement membrane assembly. We discuss the regulation of integrin function via alternative splicing of cytoplasmic domains of alpha and beta subunits of the integrin receptors for laminins and present examples of functional collaboration between laminin-binding integrins and non-integrin laminin receptors. Advances in our understanding of the laminin-binding integrins continue to demonstrate the essential roles these receptors play in maintaining cell polarity and tissue architecture.

Involvement of ribosomal proteins in regulating cell growth and apoptosis: translational modulation or recruitment for extraribosomal activity?

Gene recruitment is a mechanism of molecular evolution whereby a gene product can function in more than one distinct capacity. The 'one gene-dual function' phenomenon is well illustrated by crystallins, structural proteins that play both specialized roles in the eye lens and also 'housekeeping' enzyme roles. Ribosomal proteins are integral components of the basal cellular machinery involved in protein synthesis, whose roles have been regarded collectively as important, but individually somewhat mundane. However, various individual ribosomal proteins and also translation initiation and elongation factors have been found to play roles in regulating cell growth, transformation and death, giving rise to increasing speculation that components of the translational apparatus can act as multifunctional proteins. Recently, we have shown that ribosomal protein S3a (RPS3a) plays important roles in cell transformation and death, whereby constitutively or transiently enhanced RPS3a expression can be regarded as 'priming' a cell for apoptosis and suppression of such enhanced expression as 'execution'. While it is unclear whether RPS3a acts in a capacity mechanistically distinct from that in translation, such a possibility is discussed in this article in the light of recent, although not exhaustively reviewed, findings implicating the involvement of other individual ribosomal proteins in modulating and/or effecting changes in cellular responses and growth patterns in an extraribosomal capacity independent of their conventional role in translation.

Human ribosomal protein L7 carries two nucleic acid-binding domains with distinct specificities

Protein L7 is associated with the large subunit of eukaryotic ribosomes that can act as a co-regulator of nuclear receptor-mediated transcription. In this study we show that L7 carries in addition to the known N-terminal nucleic acid-binding domain (NBD 1) a second one (NBD 2) which maps to the 50 C-terminal amino acids of the protein. The amino acid sequence of this region does not contain any of the known nucleic acid binding motifs; thus, NBD 2 may represent a new class of nucleic acid-binding protein motifs. NBD 2 is conserved in all known eukaryotic L7 homologs, whereas NBD 1 is only present in mammalian L7. Binding studies show that NBD 2 is functionally different from NBD 1 in that it binds preferentially to 28S rRNA, suggesting that NBD 2 is involved in the attachment of protein L7 to the large ribosomal subunit. Potential functions of NBD 1 and NBD 2 in translational and nuclear receptor-mediated transcriptional control are discussed.

Ribosome-associated protein LBP/p40 binds to S21 protein of 40S ribosome: analysis using a yeast two-hybrid system

The ribosome-associated protein LBP/p40, which was originally named after "laminin binding protein precursor p40," is distributed on the cell surface as laminin binding protein p67 (LBP/p67), in the nucleus, and on 40S ribosomes. In a broad range of eukaryotes, the localization of LBP/p40 on the 40S ribosome is well conserved. Two yeast homologs of LBP/p40 are believed to be essential for cell viability and each gene product probably corresponds to the assembly and/or stability of the 40S ribosomal subunit. The precise role of LBP/p40 in translation, however, remains to be elucidated, especially in higher eukaryotes. In this report, we used a yeast two-hybrid screening method to isolate molecules associated with human LBP/p40 protein on ribosomes. We found that the 40S ribosomal protein S21 was tightly bound with LBP/p40 in this yeast two-hybrid system and in in vitro analysis. Further, we discovered that the association required a broad region of the LBP/p40 amino acid sequence, which corresponds to the highly conserved region of LBP/p40 homologs among eukaryotes.

Role of the 37 kDa laminin receptor precursor in the life cycle of prions

Prions are thought to consist of infectious proteins that cause, in the absence of detectable nucleic acid, a group of fatal neurodegenerative diseases, called transmissible spongiform encephalopathies (TSE). Among these diseases are bovine spongiform encephalopathy (BSE), scrapie of sheep and Creutzfeldt-Jakob disease (CJD) in humans. They occur as sporadic, infectious or genetic disorders and have in common the accumulation of an abnormal, pathogenic isoform of the cellular prion protein PrPc which is converted in a post-translational process into PrPSc concomitant with conformational changes of the protein. During this process PrPc acquires a high beta-sheet content and becomes partially resistant to proteases. The mechanism of this conversion as well as the physiological function of the cellular prion protein PrPc are poorly understood, but studies employing PrP knock-out mice demonstrated that PrPc is required for the development of prion diseases. The involvement of co-factors such as chaperones, receptors or an unknown protein, designated "protein X" in the conversion process are discussed. In a yeast two-hybrid screen we have identified the 37 kDa laminin receptor precursor (LRP) as an interactor of the cellular prion protein and this interaction could be confirmed by co-infection and co-transfection studies in mammalian and insect cells. LRP evolved from the ribosomal protein p40 essential for protein synthesis lacking any laminin binding activity to a cell surface receptor binding laminin, elastin and carbohydrates. The gene encoding 37 kDa LRP/p40 has been identified in a variety of species including the sea urchin Urechis caupo, Chlorohydra viridissima, the archaebacterium Haloarcula marismortui, the yeast Saccharomyces cerevisiae as well as in mammals where it is highly conserved. LRP works as a receptor for alphaviruses and is associated with the metastatic potential of solid tumors where it was first identified. The 37 kDa LRP forms its mature 67 kDa isoform with high laminin binding capacity by an unknown mechanism involving acylation. The multifunctionality of LRP as a ribosomal protein and a cell surface receptor for infectious agents such as viruses and prions might be extended by additional properties.

TNF-alpha and IFN-gamma down-regulate the expression of the metastasis-associated bi-functional 37LRP/p40 gene and protein in transformed keratinocytes

The 37 LRP/p40 molecule is a bi-functional protein in which expression is increased in a large variety of cancers in association with their metastatic phenotype. Here we present the first data concerning the 37 LRP/p40 gene promoter activity and show that it is very active in a cervix carcinoma cell line. Interestingly, despite hallmarks of a housekeeping gene, we show that the 37 LRP/p40 gene promoter can be down-regulated by two potentially anticancerous cytokines, TNF-alpha and IFN-gamma. In addition, the dual fate of the protein, i.e., being intracellularly involved in the cell translation machinery and incorporated into a 67-kDa cell surface protein functioning as a laminin receptor (67LR), is differentially affected by the treatment. Our data suggest multiple regulation levels in the control of the 67LR/37LRP/p40 molecule expression and uncover new clues for the understanding of both the control of expression of this metastasis-associated molecule and the IFN-gamma and TNF-alpha anticancerous action.

Binding of Sindbis virus to cell surface heparan sulfate

Alphaviruses are arthropod-borne viruses with wide species ranges and diverse tissue tropisms. The cell surface receptors which allow infection of so many different species and cell types are still incompletely characterized. We show here that the widely expressed glycosaminoglycan heparan sulfate can participate in the binding of Sindbis virus to cells. Enzymatic removal of heparan sulfate or the use of heparan sulfate-deficient cells led to a large reduction in virus binding. Sindbis virus bound to immobilized heparin, and this interaction was blocked by neutralizing antibodies against the viral E2 glycoprotein. Further experiments showed that a high degree of sulfation was critical for the ability of heparin to bind Sindbis virus. However, Sindbis virus was still able to infect and replicate on cells which were completely deficient in heparan sulfate, indicating that additional receptors must be involved. Cell surface binding of another alphavirus, Ross River virus, was found to be independent of heparan sulfate.