APRIL Jurg Tschopp* Institute of Biochemistry, University of Lausanne, Ch. des Boveresses 155, Epalinges, CH-1066, Switzerland *corresponding author tel: (cid:135)41 21 692 5738, fax: (cid:135)41 21 692 5705, e-mail: [email protected]. DOI: 10.1006/rcwy.2000.05011. SUMMARY eight (cid:12) strands in its extracellular domain, which are folded into an antiparallel (cid:12) sandwich structure. APRIL is a member of the TNF family. While transcriptsofAPRILareoflowabundanceinnormal Main activities and tissues, high levels of mRNA are detected in trans- pathophysiological roles formed cell lines, and in human cancers of the colon, thyroid,andlymphoidtissuesinvivo.Theadditionof recombinantAPRILtovarioustumorcellsstimulates Recombinant soluble APRIL leads to an increased their proliferation. Moreover, APRIL-transfected proliferation of various tumor cell lines, including NIH 3T3 cells show an increased rate of tumor Raji B cells, Jurkat T cells, and MCF-7 carcinoma growth in nude mice when compared with the paren- cells.NIH3T3cellsoverexpressingfull-lengthAPRIL tal cell line. The receptor of APRIL is currently proliferate faster. When injected into nude mice, unknown. APRIL may be implicated in the regula- APRIL-expressing NIH 3T3 cells form tumors tion of tumor cell growth. significantly faster than do parental NIH 3T3 cells (Hahne et al., 1998). Together with the observation that APRIL mRNA is increased in tumor cell lines BACKGROUND and in metastatic tumors, this suggests that increased APRIL expression may be involved in tumorigenesis. Discovery GENE AND GENE REGULATION The discovery of APRIL arose from studies aimed at identifying novel members of the TNF ligand by Accession numbers screening public databases using a profile search (Bucher et al., 1996). Several cDNA clones were GenBank: identifiedencodinganovelproteinof250aminoacids Human gene: AF046888 with significant sequence homology to known mem- bers of this family (Hahne et al., 1998). Chromosome location Structure The gene has been localized to chromosome 17p13. The absence of a signal peptide suggests that APRIL Relevant linkages is a type II membrane protein that is typical of the members of the TNF ligand family. Based on the known structure of the homologous lymphotoxin (cid:11) The APRIL gene is found adjacent to that for (Banner et al., 1993), APRIL is predicted to contain TWEAK. 500 Jurg Tschopp Cells and tissues that express Discussion of crystal structure the gene Nocrystalstructureisavailable.However,thecrystal structure of APRIL is expected to be homologous to Human APRIL mRNA is found in peripheral blood thatoflymphotoxin(cid:11),CD40L,andTNF(cid:11),forwhich lymphocytes(PBLs)andprostategland.Expressionis structural information is available (being an elon- particularly high in tumor tissues (thyroid and colon gated, antiparallel (cid:12) pleated sheet sandwich with a carcinoma,andlymphoma),andincelllines(promye- ‘jelly-roll’ topology, three monomers associating inti- locytic leukemia, HL-60; HeLa cell S3; chronic mately about a 3-fold axis of symmetry to form a myelogenous leukemia, K562; lymphoblastic leuke- compact, bell-shaped trimer) (Eck and Sprang, 1989; mia, MOLT-4; Burkitt’s lymphoma, Raji; colorectal Banner et al., 1993; Karpusas et al., 1995). adenocarcinoma, SW480; lung carcinoma, A459; melanoma, G361). Important homologies PROTEIN APRIL is a member of the TNF ligand family (Figure 2). Sequence Posttranslational modifications Theproteinsequence ofAPRILis showninFigure1. Thereisaputativeglycosylationsiteatasparagine124. The extracellular region is processed by an Description of protein unknown protease (possibly furin), which cleaves in a highly basic region of the stalk region APRILisatypeIImembraneproteinlackingasignal (RKRRAVLTQKQKK). The receptor-binding peptide. domain of APRIL is thereby released. Figure 1 Protein sequence of APRIL. The transmembrane domain is underlined. Sequence Transmembrane domain underlined. 1 MPASSPFLLA PKGPPGNMGG PVREPALSVA LWLSWGAALG AVACAMALLT QQTELQSLRR 61 EVSRLQGTGG PSQNGEGYPW QSLPEQSSDA LEAWENGERS RKRRAVLTQK QKKQHSVLHL 121 VPINATSKDD SDVTEVMWQP ALRRGRGLQA QGYGVRIQDA GVYLLYSQVL FQDVTFTMGQ 181 VVSREGQGRQ ETLFRCIRSM PSHPDRAYNS CYSAGVFHLH QGDILSVIIP RARAKLNLSP 241 HGTFLGFVKL Figure 2 Alignment comparing seven members of the TNF ligand family. APRIL 117 VLHLVPINATSKDDS..........DVTVEMWQPA.LRRGRGLQA....QGYGVRIQDAGVYLLYSQVLFQDVT..........FTMGQV TNFa 89 VAHVVANPQAEGQ...............L.QWLNR..RANALLANGVELRDNQLVVPSEGLYLIYSQVLFKGQGCPS....THVLLTHTI TXa 64 AAHLIGDPSKQNS...............L.LWRAN..TDRAFLQDGFSLSNNSLLVPTSGIYFVYSQVVFSGKAYSPKATSSPLYLAHEV FASL 146 VAHLTGKSNSRSMP..............L.EWEDT..YGIVLLSGVKY.KKGGLVINETGLYFVYSKVYFRGQSCN......NLPLSHKV TRAIL 123 AAHITGTRGRSNTLSSPNSKNEKALGRKINWSESSR.SGHSFLSNLHL.RNGELVIHEKGFYYIYSQTYFRFQEEIK....ENTKNDKQM TWEAK 143 AAHYEVHPRPGQDGAQAGV......DGTVSWGEKARINSSSPLRYNR..QIGEFIVTRAGLYYLYCQVHFDEGKAVY..LKLDLLVDGVL TRANCE 164 FAHLTINATDIPSGSH.........KVSLSWSYHD..RGWGKISNMTF.SNGKLIVNQDGFYYLYANICFRHHETSGDLATEYLQLMVYV PRIL 182 VSREGQG...RQETLFRCIRSMP........SHDPRAYNSCYSAGVFHLHQGDILSVIIPRARAKLNLSPHGTFLGFVKL TNFa 157 SRIAVSY...QTKVNLLSAIKSPCQRETPEGAEAKPWYEIPYLGGVFQLEKGDRLSAEINRPDYLDFAESGQVYFGIIAL TXa 136 QLFSSQY...PFHVPLLSSQKMV......YPGLQEPWLHSMYHGAAFQLTQGDQLSTHTDGIPHLVLSP.STVFFGAFAL FASL 212 YMRNSKY...PQDLVMMEGKMMS......YCTTGQMWARSSYLGAVFNLTSADHLYVNVSELSLVNFEE.SQTFFGLYKL TRAIL 189 VQYIYKYTSYPDPILLMKSARNS.....CWSKDAEYGLYSIYQGGIFELKENDRIFVSVTNEHLIDMDH.EASFFGAFLV TWEAK 223 ALRCLEE...FSATAASSLGP...............QLRLCVQSGLLALRPGSSLRIRTLPWAHLKAAP.FLTYFGLFQV TRANCE 242 TKTSIKI...PSSHTLMKGGSTK.....YWSGNSEFHFYSINVGGFFKLRSGEEISIEVSNPSLLDPDQ.DATYFGAFKV APRIL 501 CELLULAR SOURCES AND References TISSUE EXPRESSION Banner,D.W.,D’Arcy,A.,Janes,W.,Gentz,R.,Schoenfeld,H.J., Broger, C., Loetscher, H., and Lesslauer, W. (1993). Crystal Cellular sources that produce structure of the soluble human 55kd TNF receptor–human TNF beta complex: implications for TNF receptor activation. Many cell lines express APRIL mRNA. There is no Cell73,431–445. Bucher, P., Karplus, K., Moeri, N., and Hofmann, K. (1996). report on protein expression. A flexible search technique based on generalized profiles. ComputerChem.20,3–24. Eck, M. J., and Sprang, S. R. (1989). The structure of tumor IN VITRO ACTIVITIES necrosisfactor-alphaat2.6Aresolution.Implicationsforrecep- torbinding.J.Biol.Chem.264,17595–17605. In vitro findings Hahne,M.,Kataoka,T.,Schroter,M.,Hofmann,K.,Irmler,M., Bodmer, J. L., Schneider, P., Bornand, T., Holler, N., French, L. E., Sordat, B., Rimoldi, D., and Tschopp, J. APRIL accelerates the growth of many cell lines. (1998). APRIL, a new ligand of the tumor necrosis factor family, stimulates tumor cell growth. J. Exp. Med. 188, 1185– 1190. Bioassays used Karpusas, M., Hsu, Y. M., Wang, J. H., Thompson, J., Lederman, S., Chess, L., and Thomas, D. (1995). 2 A crystal Thebioassayusedisanincreasedproliferationrateof structure of an extracellular fragment of human CD40 ligand. Structure3,1031–1039. Jurkat cells (Hahne et al., 1998).