About InVivoMAb anti-mouse CD44 The KM703 monoclonal antibody recognizes CD44, a ubiquitously expressed cell-surface receptor glycoprotein that acts as the main receptor for hyaluronan (HA). The murine CD44 gene exhibits polymorphism, and it has two allelic forms, PGP-1.1 and PGP-1.2, and the expressed product is Pgp-1.1 (Ly-24.1). CD44 is also called Ly-24 or Pgp1, and it interacts with several proteins, including HA, collagen, laminin, fibronectin, PKN2, TIAM1/2, UNC119, PDPN, RDX, EZR, MSN, EGFR, CD74, etc. Through its ectodomain, CD44 engages with extracellular matrix (ECM) components, namely HA, collagen, growth factors, cytokines, or proteases, thereby assembling to serve as a platform for signal transduction. CD44 also engages with intra-cellular protein complexes containing receptor kinases and membrane proteases through its cytoplasmic domain. CD44 plays a significant role in cell-cell and cell-matrix interactions, cell adhesion and migration (cell motility), and facilitates the cells to sense and respond to changes in the tissue microenvironment. CD44 can also act as a coreceptor for growth factors and cytokines, facilitating their cell signaling pathways. In cancer research, CD44 is often considered a common cancer stem cell marker, and knockout or knockdown of CD44 correlates with enhanced cancer metastasis. The KM703 antibody does not recognize the HA binding site of CD44, and it has been shown that the KM703 antibody doesn’t inhibit CD44-HA binding in W279 and BW5147 cells. Researchers often use the KM703 antibody as a non-HA-blocking antibody in their in vitro functional experiments. InVivoMAb anti-mouse CD44 Specifications IsotypeRat IgG2a, κ Recommended Isotype Control(s)InVivoMAb rat IgG2a isotype control, anti-trinitrophenol Recommended Dilution BufferInVivoPure pH 7.0 Dilution Buffer ImmunogenBone marrow-derived stromal cell clone BMS2 Reported Applicationsin vitro functional assays Flow cytometry Immunohistochemistry (frozen) Immunoprecipitation FormulationPBS, pH 7.0 Contains no stabilizers or preservatives Endotoxin<2EU/mg (<0.002EU/μg) Determined by LAL gel clotting assay Purity>95% Determined by SDS-PAGE Sterility0.2 μm filtered ProductionPurified from cell culture supernatant in an animal-free facility PurificationProtein G Molecular Weight150 kDa StorageThe antibody solution should be stored at the stock concentration at 4°C. Do not freeze. Application ReferencesInVivoMAb anti-mouse CD44 (CLONE: KM703)Larkin J, Renukaradhya GJ, Sriram V, Du W, Gervay-Hague J, Brutkiewicz RR (2006). "CD44 differentially activates mouse NK T cells and conventional T cells" J Immunol 177(1):268-79. PubMedNK T (NKT) cells are an important component of the innate immune system and recognize the MHC class I-like CD1d molecule. NKT cells possess significant immunoregulatory activity due to their rapid secretion of large quantities of pro- and anti-inflammatory cytokines following CD1d-dependent stimulation. Because the innate immune system is programmed to respond to a multitude of diverse stimuli and must be able to quickly differentiate between pathogenic and endogenous signals, we hypothesized that, apart from stimulation via the TCR (e.g., CD1d-dependent activation), there must be multiple activation pathways that can be triggered through other cell surface receptors on NKT cells. Therefore, we analyzed the ability of CD44, a structurally diverse cell surface receptor expressed on most cells, to stimulate murine NKT cells, compared with conventional T cells. Stimulation of CD44 through Ab cross-linking or binding to its natural ligands hyaluronan and osteopontin induced NKT cells to secrete cytokines, up-regulate activation markers, undergo morphological changes, and resist activation-induced cell death, whereas conventional T cells only exhibited changes in morphology and protection from activation-induced cell death. This CD44-specific stimulation of NKT cells correlated with their ability to bind hyaluronan. Thus, fundamental differences in CD44 function between these lymphocyte subsets suggest an important biological role for CD44 in the innate immune response.Eriksson E, Dons L, Rothfuchs AG, Heldin P, Wigzell H, Rottenberg ME (2003). "CD44-regulated intracellular proliferation of Listeria monocytogenes" Infect Immun 71(7):4102-11. PubMedCD44 has been implicated in immune and inflammatory processes. We have analyzed the role of CD44 in the outcome of Listeria monocytogenes infection in murine bone marrow-derived macrophages (BMM). Surprisingly, a dramatically decreased intracellular survival of L. monocytogenes was observed in CD44(-/-) BMM. CD44(-/-) heart or lung fibroblast cultures also showed reduced bacterial levels. Moreover, livers from CD44(-/-)-infected mice showed diminished levels of L. monocytogenes. In contrast, intracellular growth of Salmonella enterica serovar Typhimurium was the same in CD44(-/-) and control BMM. The CD44-mediated increased bacterial proliferation was not linked to altered BMM differentiation or to secretion of soluble factors. CD44 did not mediate listerial uptake, and it played no role in bacterial escape from the primary phagosome or formation of actin tails. Furthermore, CD44-enhanced listerial proliferation occurred in the absence of intracellular bacterial spreading. Interestingly, coincubation of BMM with hyaluronidase or anti-CD44 antibodies that selectively inhibit hyaluronan binding increased intracellular listerial proliferation. Treatment of cells with hyaluronan, in contrast, diminished listerial growth and induced proinflammatory transcript levels. We suggest that L. monocytogenes takes advantage of the CD44-mediated signaling to proliferate intracellularly, although binding of CD44 to certain ligands will inhibit such response.Nandi A, Estess P, Siegelman MH (2000). "Hyaluronan anchoring and regulation on the surface of vascular endothelial cells is mediated through the functionally active form of CD44" J Biol Chem 275(20):14939-48. PubMedCD44 on lymphocytes binding to its carbohydrate ligand hyaluronan can mediate primary adhesion (rolling interactions) of lymphocytes on vascular endothelial cells. This adhesion pathway is utilized in the extravasation of activated T cells from the blood into sites of inflammation and therefore influences patterns of lymphocyte homing and inflammation. Hyaluronan is a glycosaminoglycan found in the extracellular matrix and is involved in a number of biological processes. We have shown that the expression of hyaluronan on the surface of endothelial cells is inducible by proinflammatory cytokines. However, the manner through which hyaluronan is anchored to the endothelial cell surface so that it can resist shear forces and the mechanism of the regulation of the level of hyaluronan on the cell surface has not been investigated. In order to characterize potential hyaluronan receptors on endothelial cells, we performed analyses of cell surface staining by flow cytometry on intact endothelial cells and ligand blotting assays using membrane fractions. Hyaluronan binding activity was detected as a major species corresponding to the size of CD44, and this was confirmed to be the same by Western blotting and immunoprecipitation. Moreover, alterations in the surface level of hyaluronan after tumor necrosis factor-alpha stimulation is regulated primarily by changes in the cell surface levels of the hyaluronan-binding form of CD44. In laminar flow assays, lymphoid cells specifically roll on hyaluronan anchored by purified CD44 coated on glass tubes, indicating that the avidity of the endothelial CD44/hyaluronan interaction is sufficient to support rolling adhesions under conditions mimicking physiologic shear forces. Together these studies show that CD44 serves to anchor hyaluronan on endothelial cell surfaces, that activation of CD44 is a major regulator of endothelial surface hyaluronan expression, and that the non-covalent interaction between CD44 and hyaluronan is sufficient to provide resistance to shear under physiologic conditions and thereby support the initial steps of lymphocyte extravasation.Aguiar DJ, Knudson W, Knudson CB (1999). "Internalization of the hyaluronan receptor CD44 by chondrocytes" Exp Cell Res 252(2):292-302. PubMedChondrocytes express CD44 as a primary receptor for the matrix macromolecule hyaluronan. Hyaluronan is responsible for the retention and organization of proteoglycan within cartilage, and hyaluronan-chondrocyte interactions are important for the assembly and maintenance of the cartilage matrix. Bovine articular chondrocytes were used to study the endocytosis and turnover of CD44 and the effects of receptor occupancy on this turnover. Matrix-intact chondrocytes exhibit approximately a 6% internalization of cell surface CD44 by 4 h. Treatment with Streptomyces hyaluronidase to remove endogenous pericellular matrix increased internalization to approximately 20% of cell surface CD44 at 4 h. This turnover could be partially inhibited by the addition of exogenous hyaluronan to these matrix-depleted chondrocytes. Cell surface biotin-labeled CD44 was internalized by chondrocytes and this internalization was decreased in the presence of hyaluronan. Colocalization of internalized CD44 and fluorescein-labeled hyaluronan in intracellular vesicles correlates with the previous results of receptor-mediated endocytosis pathway for the degradation of hyaluronan by acid hydrolases. Taken together, our results indicate that CD44 is internalized by chondrocytes and that CD44 turnover is modulated by occupancy with hyaluronan.Fernandez JA, Zavala F, Tsuji M (1999). "Phenotypic and functional characterization of CD8(+) T cell clones specific for a mouse cytomegalovirus epitope" Virology 255(1):40-9. PubMedA series of CD8(+) T cell clones, specific for the IE1 epitope YPHFMPTNL, of the immediate-early protein 1 of the murine cytomegalovirus (MCMV) were generated in order to determine their protective activity against this infection and correlate their phenotypic markers with antiviral activity. We found that the adoptive transfer of three of these anti-MCMV CD8(+) T cell clones into irradiated naive mice resulted in protection against challenge, while another CD8(+) T cell clone, of the same specificity, failed to confer protection. The clones that conferred protection against lethal challenge reduced greatly viral replication in the lung and other organs of the mice. Using one of the protective anti-MCMV CD8(+) T cell clones we found that in order to be fully protective the cells had to be transferred to recipient mice no later than 1 day after MCMV challenge. The adoptive transfer of these CD8(+) T cell clones also protected CD4(+) T-cell-depleted mice. Phenotypic characterization of the anti-MCMV clones revealed that the nonprotective clone expressed very low levels of CD8 molecules and produced only small amounts of TNF-alpha upon antigenic stimulation. Most importantly, our current study demonstrates that this MHC class I-restricted IE1 epitope of MCMV is efficiently presented to CD8(+) T cell clones in vivo and further strengthens the possibility of the potential use of CD8(+) T cell clones as immunotherapeutic tools against cytomegalovirus-induced disease.Rodrigues MM, Ribeirão M, Pereira-Chioccola V, Renia L, Costa F (1999). "Predominance of CD4 Th1 and CD8 Tc1 cells revealed by characterization of the cellular immune response generated by immunization with a DNA vaccine containing a Trypanosoma cruzi gene" Infect Immun 67(8):3855-63. PubMedImmunization with a plasmid DNA containing the gene encoding the catalytic domain of trans-sialidase (TS) elicits protective immune responses against experimental Trypanosoma cruzi infection. As several studies provided strong evidence that during infection CD4 Th1 and CD8 T cytotoxic type 1 (Tc1) cells are important factors in host resistance, the present study was designed to evaluate which T-cell types were activated in DNA-vaccinated BALB/c mice. We found that bulk cells from DNA-immunized mice had CD4 and CD8 T cells that produced gamma interferon (IFN-gamma) but not interleukin-4 (IL-4) or IL-10. To characterize the TS-specific T cells at the clonal level, we generated CD4 and CD8 clones. We obtained cytotoxic CD4 clones of the Th1 type that secreted large amounts of IFN-gamma but not IL-4 or IL-10. Unexpectedly, we obtained other CD4 clones with a Th2 phenotype, secreting IL-4 and IL-10 but not IFN-gamma. All CD8 clones were cytotoxic and produced IFN-gamma. IL-4 and IL-10 were not secreted by these cells. Using synthetic peptides, we determined a CD8 epitope recognized by several clones as being represented by amino acids IYNVGQVSI. The antiparasitic activity of a CD4 Th1 and a CD8 Tc1 clone was assessed in vitro. CD4 or CD8 T cells significantly inhibited T. cruzi development in infected macrophages or fibroblasts, respectively. We concluded that DNA vaccine efficiently generates potentially protective CD4 Th1 and CD8 Tc1 cells specific for a T. cruzi antigen, therefore reinforcing the possibility of using this strategy for developing a preventive or therapeutic vaccine against Chagas' disease.Ishiwatari-Hayasaka H, Fujimoto T, Osawa T, Hirama T, Toyama-Sorimachi N, Miyasaka M (1999). "Requirements for signal delivery through CD44: analysis using CD44-Fas chimeric proteins" J Immunol 163(3):1258-64. PubMedCD44 is a transmembrane glycoprotein involved in various cell adhesion events, including lymphocyte migration, early hemopoiesis, and tumor metastasis. To examine the requirements of CD44 for signal delivery through the extracellular domain, we constructed a chimeric CD44 protein fused to the intracellular domain of Fas on its C-terminus. In cells expressing the CD44-Fas fusion protein, apoptosis could be induced by treatment with certain anti-CD44 mAbs alone, especially those recognizing the epitope group d, which has been previously shown to play a role in ligand binding, indicating that ligation of a specific region of the CD44 extracellular domain results in signal delivery. Of note was that appropriate ligation of the epitope h also resulted in the generation of apoptotic signal, although this region was not thought to be involved in ligand binding. In contrast, the so-called blocking anti-CD44 mAbs (epitope group f) that can abrogate the binding of hyaluronate (HA) failed to induce apoptosis even after further cross-linking with the secondary Ab, indicating that a mere mAb-induced oligomerization of the chimeric proteins is insufficient for signal generation. However, these blocking mAbs were instead capable of inhibiting apoptosis induced by nonblocking mAb (epitope group h). Furthermore, a chimeric protein bearing a mutation in the HA binding domain and hence lacking the ability to recognize HA was incapable of mediating the mAb-induced apoptosis, suggesting that the functional integrity of the HA binding domain is crucial to the signal generation in CD44.Pedrinaci S, Algarra I, Garcia Lora A, Gaforio JJ, Perez M, Garrido F (1999). "Selective upregulation of MHC class I expression in metastatic colonies derived from tumor clones of a murine fibrosarcoma" Int J Clin Lab Res 29(4):166-73. PubMedEighteen metastatic nodes derived from the wild-type (GR9) and from 4 different clones (G2, D8, B10, and B9) obtained from a fibrosarcoma were analyzed for H-2 class I and II expression, as well as for adhesion molecules (CD44, CDIIb, CD18, CD49, and CD54). When metastatic nodes were cultured, typed for H-2 antigens, and compared with the H-2 expression of the inducing tumor cell, H-2 Kd and Dd class I expression was greater in most nodes analyzed. In contrast, the Ld molecule remained negative, or showed a minor increase. Class II expression was negative in the wild-type and the tumor clones, and remained so in the metastatic colonies. Analysis of the adhesion molecules revealed no differences between the inducing tumor cells and the metastatic nodes. The only molecule expressed was CD44, which was present in all cells studied and was also inducible by interferon-gamma. The increase in H-2K and H-2D expression was associated with resistance to natural killer cytotoxicity, as observed in the G2 tumor clone and some autologous metastases, such as B9MP2, G2MK2, and G2MLI. In three independent clones of this tumor system (D8, BIOMP6, and B9MP6) we found that tumor cells treated with interferon-gamma had the same altered phenotype, i.e., a selective lack of response of the Ld molecule to induction. These findings add a cautionary note to the well-established idea that tumor cells may lose all class I antigens during tumor progression, and suggest that sometimes this may not be the case. The selective downregulation of Ld and upregulation of Kd and Dd class I expression may give some tumor cells means of escaping both cytotoxic lymphocyte and natural killer immune surveillance.DeGrendele HC, Estess P, Siegelman MH (1997). "Requirement for CD44 in activated T cell extravasation into an inflammatory site" Science 278(5338):672-5. PubMedLeukocytes extravasate from the blood into inflammatory sites through complementary ligand interactions between leukocytes and endothelial cells. Activation of T cells increases their binding to hyaluronate (HA) and enables CD44-mediated primary adhesion (rolling). This rolling could be induced in vivo in murine Vbeta8(+) T cells in response to specific superantigen stimulation; it was initially found in lymph nodes, then in peripheral blood, and finally within the peritoneum, the original inflamed site. The migration of Vbeta8(+) cells into the peritoneal cavity was dependent on CD44 and HA, as shown by inhibition studies. Thus, CD44-HA interactions can target lymphocytes to specific extralymphoid effector sites.Yamashita Y, Hirano H, Hodes RJ (1997). "Tissue-specific and growth-regulated expression of CD44 variable exon determinants in the mouse" Cell Immunol 176(1):22-33. PubMedCD44 is a polymorphic transmembrane glycoprotein widely expressed in lymphocytes and epithelial cells. CD44 polymorphism reflects both posttranslational modification and alternative splicing of up to 10 variably expressed exons in the membrane-proximal CD44 extracellular domain. An analysis of CD44 variable exon-containing isoforms in the mouse was carried out by generating a panel of monoclonal antibodies against variable region determinants of CD44. Immunohistochemical analysis demonstrated selective patterns of expression of CD44 variable exon determinants in normal tissues, and flow cytometric analysis identified expression of CD44 variable exon-dependent determinants in epithelial and lymphoid cell lines. Regulation of alternative splicing was studied by characterization of cell surface expression of CD44 variable exon determinants on HC11 mammary epithelial cells, and it was demonstrated that variably spliced isoforms are selectively regulated as a function of growth phase in vitro. These results demonstrate the tissue-specific and growth-regulated expression of the CD44 isoform at the level of cell surface protein products and identify isoform-specific determinants that can be targeted in analysis of isoform-specific function.Warren AP, Patel K, McConkey DJ, Palacios R (1996). "CD98: a type II transmembrane glycoprotein expressed from the beginning of primitive and definitive hematopoiesis may play a critical role in the development of hematopoietic cells" Blood 87(9):3676-87. PubMedIn our search for cell surface markers expressed on hematopoietic stem cells and/or very early progenitor cells we found that the Joro 177 monoclonal antibody (MoAb) bound to most hematopoietic cells in day 8/8.5 yolk sac, day 12 fetal liver, and day 13 fetal thymocytes; it stained hematopoietic stem cells and less immature lymphoid, myeloid, and erythroid-lineage cells, but not most thymocytes and splenic lymphocytes in adult mice. Joro 177 MoAb stimulated tyrosine phosphorylation of an integral of 124-kD protein and induced homotypic aggregation of lymphoid progenitor cells. Importantly, Joro 177 MoAb inhibited cell survival/growth and consequently the generation of lymphoid, myeloid, and erythroid lineage cells in vitro from early Lin- hematopoietic precursors. Joro 177 MoAb induced apoptosis of hematopoietic progenitor cells. Molecular cloning and expression indicated that Joro 177 MoAb recognizes a type II transmembrane protein, which is the mouse homologue of the human CD98 heavy chain gene. We suggest that CD98 is a cell membrane receptor involved in the control of cell survival/death of hematopoietic cells.Tsuji M, Eyster CL, O', Brien RL, Born WK, Bapna M, Reichel M, Nussenzweig RS, Zavala F (1996). "Phenotypic and functional properties of murine gamma delta T cell clones derived from malaria immunized, alpha beta T cell-deficient mice" Int Immunol 8(3):359-66. PubMedSix murine T cell clones expressing gamma delta TCR were generated from malaria immunized, alpha beta T cell-deficient mice. Phenotypic characterization of these clones has revealed that, in contrast to conventional alpha beta T cells, there is a considerable degree of heterogeneity among these gamma delta clones with regard to their surface markers and their lymphokine profile. One clone was found to display significant anti-parasite activity in vivo upon adoptive transfer. We attempted to determine whether the protective clone differs in one or more key characteristics from the non-protective clones. Although no obvious pattern peculiar to the protective gamma delta clone was observed, it appears that more than one parameter may, in combination, define a distinct protective phenotype, and thus explain the functional difference between the protective and non-protective gamma delta clones.Zheng Z, Katoh S, He Q, Oritani K, Miyake K, Lesley J, Hyman R, Hamik A, Parkhouse RM, Farr AG, Kincade PW (1995). "Monoclonal antibodies to CD44 and their influence on hyaluronan recognition" J Cell Biol 130(2):485-95. PubMedAntibodies to CD44 have been used to inhibit a variety of processes which include lymphohemopoiesis, lymphocyte migration, and tumor metastasis. Some, but not all, CD44-mediated functions derive from its ability to serve as a receptor for hyaluronan (HA). However, sites on CD44 that interact with either ligands or antibodies are poorly understood. Interspecies rat/mouse CD44 chimeras were used to analyze the specificity of 25 mAbs and to determine that they recognize at least seven epitopes. Amino acid substitutions that resulted in loss of antibody recognition were all located in the region of homology to other cartilage link family proteins. While at least five epitopes were eliminated by single amino acid replacements, multiple residues had to be changed to destroy binding by other antibodies. One antibody was sensitive to changes in any of three separate parts of the molecule and some antibodies to distinct epitopes cross-blocked each other. Certain antibodies had the ability to increase HA binding by lymphocytes but this did not correlate absolutely with antibody specificity and was only partially attributable to CD44 cross-linking. Antibodies that consistently blocked HA recognition were all sensitive to amino acid changes within a short stretch of CD44. Such blocking antibodies interacted with CD44 more strongly than ligand in competition experiments. One large group of antibodies blocked ligand binding, but only with a particular cell line. This detailed analysis adds to our understanding of functional domains within CD44 and requirements for antibodies to influence recognition of one ligand.Ohki K, Kohashi O (1994). "Laminin promotes proliferation of bone marrow-derived macrophages and macrophage cell lines" Cell Struct Funct 19(2):63-71. PubMedWe examined the effect of laminin on DNA synthesis or cell growth of bone marrow-derived macrophages (BMM) and five macrophage cell lines including two factor-dependent macrophage cell lines (BDM-1 and BDM-1W3) and three factor-independent ones (BAM3, J774.1, and P388D1). Laminin stimulated the M-CSF-dependent proliferation of BMM and BDM-1 cells in a dose-dependent manner, but it had no effect on the proliferation of BDM-1W3 cells. This stimulatory effect was modified by increasing the concentration of fetal calf serum in the culture medium. Laminin also stimulated the proliferation of BAM3 and J774.1 cells, whereas it could not stimulate that of P388D1 cells. Taken together, these results suggest that the differences in the response of these macrophage cell lines to the presence of laminin may be derived from the difference in the state of maturation of these cells. Although laminin acted as a potent mitogenic factor when it was added to the culture medium, the stimulation was two- to threefold lower when dishes were coated with equivalent amounts of laminin. When BDM-1 cells were cultured with laminin, they underwent drastic morphological changes. A monoclonal antibody that recognizes the integrin alpha 6 subunit only partially inhibited the mitogenic effect of laminin. The results in this report suggest that laminin may participate in the regulation of macrophage populations in vivo.Toyama-Sorimachi N, Miyake K, Miyasaka M (1993). "Activation of CD44 induces ICAM-1/LFA-1-independent, Ca2+, Mg(2+)-independent adhesion pathway in lymphocyte-endothelial cell interaction" Eur J Immunol 23(2):439-46. PubMedWe have established an endothelial cell line KOP2.16 from pooled mouse lymph nodes. Resting lymphocytes avidly bound to KOP2.16 and migrated underneath the cytoplasm. The binding was partly mediated by VLA-4 and VCAM-1, but apparently independent of CD44 since anti-CD44 antibody examined failed to inhibit the binding. However, pretreatment of lymphocytes with anti-CD44 resulted in the rapid appearance of Ca(2+)-, Mg(2+)-independent, LFA-1/ICAM-1-, CD2/LFA-3, VLA-4/VCAM-1-independent lymphocyte binding, indicating that a novel adhesion pathway was induced by the anti-CD44 treatment. Interestingly, the elicited adhesion was observed only when anti-CD44 that block hyaluronate recognition of CD44 were used for lymphocyte pretreatment. Neither hyaluronate itself nor non-blocking anti-CD44 up-regulated the adhesion. Fab fragment of the blocking anti-CD44 did not induce the up-regulation unless cross-linked with a second antibody, indicating that cross-linking of surface CD44 is necessary for induction of a novel adhesion pathway. We propose that the agonistic anti-CD44 antibodies induce a novel adhesion pathway by mimicking ligand binding to CD44 on the lymphocyte surface and that non-hyaluronate ligand(s) is involved in regulation of adhesive function of CD44. Potential involvement of such a regulatory mechanism in lymphocyte homing is discussed.Rodrigues M, Nussenzweig RS, Romero P, Zavala F (1992). "The in vivo cytotoxic activity of CD8+ T cell clones correlates with their levels of expression of adhesion molecules" J Exp Med 175(4):895-905. PubMedCD8+ T cell clones specific for a defined epitope present in the circumsporozoite protein of Plasmodium yoelii display striking differences in their in vivo antiplasmodial activity. The adoptive transfer of certain clones (YA23 and YA26) into naive mice inhibits by 90% or more the development of liver stages of malaria parasites and protects against malaria infection. The adoptive transfer of two other T cell clones (YB8 and YA15) results, respectively, in partial or no inhibitory activity on parasite development. We found that "protective" and "nonprotective" cytotoxic T lymphocyte (CTL) clones do not differ in their fine epitope specificity and display similar levels of lysis and DNA degradation of target cells in vitro. Their pattern of production of lymphokines and granule-associated proteins also failed to correlate with their in vivo antiplasmodial activity. Histological studies combined with autoradiography showed that, upon adoptive transfer, only T cells from the protective CTL clones are capable of "associating" with a significant percentage of parasitized hepatocytes. Fluorescence-activated cell sorter analysis of surface molecules revealed pronounced differences in the levels of CD44 and VLA-4 expression by the different clones, correlating closely with their in vivo protective activity. The correlation between in vivo antiparasite activity and the expression of CD44 was further corroborated by the results of sorting, from the partially protective YB8 clone, two sub-populations expressing high and low levels of CD44. These were protective and nonprotective, respectively. The clones also differed in their adhesive properties. Cross-linking of CD44, using specific antibodies, induced LFA-1-mediated homotypic aggregation of protective clones, while nonprotective cells failed to aggregate.Seth A, Gote L, Nagarkatti M, Nagarkatti PS (1991). "T-cell-receptor-independent activation of cytolytic activity of cytotoxic T lymphocytes mediated through CD44 and gp90MEL-14" Proc Natl Acad Sci U S A 88(17):7877-81. PubMedCD44 is a transmembrane glycoprotein found on a variety of cells including those of myeloid and lymphoid origin. CD44 is highly conserved among various species and is involved in the homing of lymphocytes and monocytes to lymph nodes, Peyer's patches, and sites of inflammation. In the present study, we demonstrate that monoclonal antibody (mAb) 9F3, directed against murine phagocytic glycoprotein 1 (CD44) expressed on cytotoxic T lymphocytes (CTLs), can trigger the lytic activity of CTLs and redirect CTL-mediated lysis to antigen-negative Fc receptor-positive target cells. Similar redirected lysis was also inducible using mAb MEL-14, directed against the lymphocyte homing receptor for endothelium (gp90MEL-14). The redirected lysis induced by mAbs 9F3 and MEL-14 was similar to that induced by mAbs against the alpha beta T-cell receptor or CD3. In contrast, mAbs directed against CD8, CD45R, and CD11a (LFA-1, lymphocyte function-associated antigen 1) failed to evoke lytic activity. The current study demonstrates that CD44 and gp90MEL-14 molecules, in addition to participating in T-cell homing and adhesion, may play a major role in delivering the transmembrane signal to the CTL that triggers the lytic activity, even when the T-cell receptor is not occupied. Such a mechanism may account for the nonspecific tissue damage seen at sites of CTL-mediated inflammation.Miyake K, Underhill CB, Lesley J, Kincade PW (1990). "Hyaluronate can function as a cell adhesion molecule and CD44 participates in hyaluronate recognition" J Exp Med 172(1):69-75. PubMedA cell adhesion model was previously used to select a series of monoclonal antibodies (mAbs), which were subsequently found to recognize CD44/Pgp-1. Interest in these reagents increased with the finding that they totally inhibited production of lymphoid or myeloid cells in long-term bone marrow cultures. Further investigation has now revealed that hyaluronate is a potential ligand for CD44 and that hyaluronate recognition accounts for the adhesion between B lineage hybridoma and stromal cells. The hybridoma cells adhered to hyaluronate-coated plastic wells as well as to monolayers of stromal cells. The adhesion in both cases was inhibited by treatment with hyaluronidases, and did not require divalent cations. Addition of exogenous hyaluronate also diminished binding of lymphoid cells to stromal cells. One of several mAbs to Pgp-1/CD44 was particularly effective at blocking these interactions. Since hyaluronate and Pgp-1/CD44 were present on both cell types, experiments were done to determine the cellular location of interacting molecules required for the adhesion process. Treatment of lymphoid cells with an anti-Pgp-1/CD44 antibody was more inhibitory than antibody treatment of the stromal cells. Conversely, hyaluronidase treatment of stromal cells reduced subsequent binding more than treatment of the lymphoid cells. Adhesive interactions that involve hyaluronate and CD44 could contribute to a number of cell recognition processes, including ones required for normal lympho-hemopoiesis.Miyake K, Medina KL, Hayashi S, Ono S, Hamaoka T, Kincade PW (1990). "Monoclonal antibodies to Pgp-1/CD44 block lympho-hemopoiesis in long-term bone marrow cultures" J Exp Med 171(2):477-88. PubMedA new panel of mAbs was prepared to a stromal cell line known to support lymphocytes in Whitlock-Witte type long-term bone marrow cultures. These antibodies were then screened with a cell adhesion assay and four were selected that inhibited the binding of B lineage cells to stromal cell monolayers. Immunofluorescent and biochemical analyses revealed that these new antibodies detected epitopes of the previously described Pgp-1/CD44 antigen complex. Addition of Pgp-1/CD44 antibodies to Dexter-type long-term bone marrow cultures completely prevented emergence of myeloid cells and they also blocked lymphocyte growth in Whitlock-Witte type cultures. mAbs MEL-14, LFA-1, and CD45R did not inhibit under the same conditions and there was no apparent relationship to Ig isotype. Adherent layers in treated cultures were not unusual in terms of morphology and the antibodies did not affect factor-dependent replication of lymphoid or myeloid progenitor cells. Therefore, the mechanism of inhibition may not involve direct toxicity to precursors or microenvironmental elements. Previous studies in humans and mice have implicated Pgp-1/CD44-related glycoproteins in the migration of peripheral lymphoid cells, as well as interactions of cells with the extracellular matrix. These findings suggest that they may also be critical for formation of lymphoid and myeloid cells within bone marrow.