Prevention of Fetal/Neonatal Alloimmune Thrombocytopenia in a Preclinical Model By Monoclonal Anti-HPA-1a Antibody Prophylaxis: Structural and Functional Properties of Antibody Variant Isoforms

Maternal alloantibodies to paternally inherited platelet antigens can cause fetal/neonatal alloimmune thrombocytopenia (FNAIT), rendering the fetus or newborn prone to bleeding and intracranial hemorrhage (ICH) with risk of lifelong disabilities or death. In Caucasians, the vast majority of cases are due to antibodies to the Human Platelet Antigen (HPA)-1a epitope on glycoprotein (GP)IIIa. To date, there are neither any means to prevent or reduce the risk of alloimmunization and subsequent FNAIT, nor safe and efficient treatment during affected pregnancies. Thus, a prophylactic regimen by administration of monoclonal antibodies to women at risk would be highly beneficial. Knowledge about the optimal functional design of prophylactic monoclonal antibodies for antenatal or post-natal use is however still limited. We have previously isolated and characterized a fully human anti-HPA-1a monoclonal antibody, mAb26.4. In the current study we have explored the prophylactic potential of this antibody by testing a panel of different IgG1 designs, including the wild-type mAb26.4, variants with modified Fc-region N-glycans, as well as an effector silent variant. We performed analyses of properties relevant for immunosuppression: in vitro Fc-receptor binding and capacity to induce phagocytosis, in vivo half-life measurements in humanized FcRn mice and platelet clearance in a recently developed transgenic mouse strain with a recreated HPA-1a epitope on murine GPIIIa. The prophylactic capacity by antibody-mediated immune suppression in vivo, were further tested in the FNAIT pre-clinical murine model, in which BALB/c females can be immunized by transfusion of HPA-1a-expressing platelets from the transgenic mice and where subsequent breeding of pre-immunized mice with transgenic males cause thrombocytopenia in off-springs mimicking FNAIT. By intravenous administrations of mAb26.4 variants prior to platelet transfusions, the mice generated no or low anti-platelet responses compared to control mice, and normal platelet counts in pups upon subsequent breeding. Our data thus successfully demonstrates efficient immunosuppression and prevention of FNAIT by anti-HPA-1a human monoclonal variants, providing further support for potential use in humans. Disclosures Skogen: Prophylix Pharma AS: Current holder of individual stocks in a privately-held company. Newman: Rallybio: Consultancy, Research Funding.

mRNA expression analysis confirms CD44 splicing impairment in systemic lupus erythematosus patients

Background Systemic Lupus Erythematosus (SLE) is a complex chronic autoimmune disease characterized by several immunological alterations. T cells have a peculiar role in SLE pathogenesis, moving from the bloodstream to the peripheral tissues, causing organ damage. This process is possible for their increased adherence and migration capacity mediated by adhesion molecules, such as CD44. Ten different variant isoforms of this molecule have been described, and two of them, CD44v3 and CD44v6 have been found to be increased on SLE T cells compared to healthy controls, being proposed as biomarkers of disease and disease activity. The process of alternative splicing of CD44 transcripts is not fully understood. We investigated the mRNA expression of CD44v3 and CD44v6 and also analyzed possible CD44 splicing regulators (ESRP1 molecule and rs9666607 CD44 polymorphism) in a cohort of SLE patients compared to healthy controls. Methods This study involved 18 SLE patients and 18 healthy controls. Total RNA and DNA were extracted by peripheral blood mononuclear cells. The expression study was conducted by quantitative RT-polymerase chain reaction, using SYBR Green protocol. Genotyping of rs9666607 SNP was performed by direct sequencing. Results CD44v6 mRNA expression was higher in SLE patients compared to healthy controls (p = 0.028). CD44v3/v6 mRNA ratio in healthy controls was strongly unbalanced towards isoform v3 compared to SLE patients (p = 0.002) and decreased progressively from healthy controls to the SLE patients in remission and those with active disease (p = 0.015). The expression levels of CD44v3 and CD44v6 mRNA correlated with the disease duration (p = 0.038, Pearson r = 0.493 and p = 0.038, Pearson r = 0.495, respectively). Splicing regulator ESRP1 expression positively correlated with CD44v6 expression in healthy controls (p = 0.02, Pearson r = 0.532) but not in SLE patients. The variant A allele of rs9666607 of CD44 was associated with higher level of global CD44 mRNA (p = 0.04) but not with the variant isoforms. Conclusions In SLE patients, the increase in CD44v6 protein correlates with a higher transcript level of this isoform, confirming an impairment of CD44 splicing in the disease, whose regulatory mechanisms require further investigation.

TRAF4/6 Is Needed for CD44 Cleavage and Migration via RAC1 Activation

The hyaluronan receptor CD44 can undergo proteolytic cleavage in two steps, leading to the release of its intracellular domain; this domain is translocated to the nucleus, where it affects the transcription of target genes. We report that CD44 cleavage in A549 lung cancer cells and other cells is promoted by transforming growth factor-beta (TGFβ) in a manner that is dependent on ubiquitin ligase tumor necrosis factor receptor-associated factor 4 or 6 (TRAF4 or TRAF6, respectively). Stem-like A549 cells grown in spheres displayed increased TRAF4-dependent expression of CD44 variant isoforms, CD44 cleavage, and hyaluronan synthesis. Mechanistically, TRAF4 activated the small GTPase RAC1. CD44-dependent migration of A549 cells was inhibited by siRNA-mediated knockdown of TRAF4, which was rescued by the transfection of a constitutively active RAC1 mutant. Our findings support the notion that TRAF4/6 mediates pro-tumorigenic effects of CD44, and suggests that inhibitors of CD44 signaling via TRAF4/6 and RAC1 may be beneficial in the treatment of tumor patients.

Interplay between Podoplanin, CD44s and CD44v in Squamous Carcinoma Cells

Podoplanin and CD44 are transmembrane glycoproteins involved in inflammation and cancer. In this paper, we report that podoplanin is coordinately expressed with the CD44 standard (CD44s) and variant (CD44v) isoforms in vivo—in hyperplastic skin after a pro-inflammatory stimulus with 12-O-tetradecanoylphorbol-13-acetate (TPA)—and in vitro—in cell lines representative of different stages of mouse-skin chemical carcinogenesis, as well as in human squamous carcinoma cell (SCC) lines. Moreover, we identify CD44v10 in the mouse-skin carcinogenesis model as the only CD44 variant isoform expressed in highly aggressive spindle carcinoma cell lines together with CD44s and podoplanin. We also characterized CD44v3-10, CD44v6-10 and CD44v8-10 as the major variant isoforms co-expressed with CD44s and podoplanin in human SCC cell lines. Immunofluorescence confocal microscopy experiments show that these CD44v isoforms colocalize with podoplanin at plasma membrane protrusions and cell–cell contacts of SCC cells, as previously reported for CD44s. Furthermore, CD44v isoforms colocalize with podoplanin in chemically induced mouse-skin SCCs in vivo. Co-immunoprecipitation experiments indicate that podoplanin physically binds to CD44v3-10, CD44v6-10 and CD44v8-10 isoforms, as well as to CD44s. Podoplanin–CD44 interaction is mediated by the transmembrane and cytosolic regions and is negatively modulated by glycosylation of the extracellular domain. These results point to a functional interplay of podoplanin with both CD44v and CD44s isoforms in SCCs and give insight into the regulation of the podoplanin–CD44 association.

Impact of Truncated O-glycans in Gastric-Cancer-Associated CD44v9 Detection

CD44 variant isoforms are often upregulated in cancer and associated with increased aggressive tumor phenotypes. The CD44v9 is one of the major protein splice variant isoforms expressed in human gastrointestinal cancer cells. Immunodetection of CD44 isoforms like CD44v9 in tumor tissue is almost exclusively performed by using specific monoclonal antibodies. However, the structural variability conferred by both the alternative splicing and CD44 protein glycosylation is disregarded. In the present work, we have evaluated the role of O-glycosylation using glycoengineered gastric cancer models in the detection of CD44v9 by monoclonal antibodies. We demonstrated, using different technical approaches, that the presence of immature O-glycan structures, such as Tn and STn, enhance CD44v9 protein detection. These findings can have significant implications in clinical applications mainly at the detection and targeting of this cancer-related CD44v9 isoform and highlight the utmost importance of considering glycan structures in cancer biomarker detection and in therapy targeting.