Determination of unacceptable antigens by summation of anti-HLA eplet antibody strength (MFI) based on single antigen bead assays: Excellent correlation with negative cell based cross matches.

The reliability of single antigen bead (SAB) assays and their use in predicting a negative cell based cross match (CBXM) is essential in the era of expanded organ sharing. A wide range of accuracy (80-95%) in predicting negative CBXM has been reported. We hypothesized that in SAB assays an antibody against an HLA eplet that was common among a number of different HLA alleles would be distributed among all of the shared eplet positive SABs. This would reduce binding to the donor specific SAB resulting in an under-estimate of antibody strength. We tested this proposal in adsorption studies using, instead of lymphocytes, a novel reagent, single-SAB (sSAB). Properties of SAB assays were examined that provided a basis for conducting adsorption - elution experiments with the sSABs. We found that incubation of sera with sA*02:01 or sB*42:01 not only depleted reactivity to these alleles but also depleted reactivity to beads that shared the reactive eplet. Anti-eplet strength from SAB data (sum of the MFI of eplet positive SABs (MFI-s) was compared with CBXM out comes in two case studies and with 99 proficiency testing sera. In these validation studies, an MFI-s above 11,000 was associated with a positive FCXM. This approach was placed into clinical practice for listing unacceptable antigens that shared a common eplet. CDCXMs (n = 3261) and FCXMs (n = 1012) were performed on patients listed in UNOS for deceased donor kidneys. All CDCXMs were negative and all FCXMs except one were negative. We conclude that summation of eplet strength provides a highly reliable method of predicting prospective negative CBXMs resulting in substantial savings of time and effort. Based on shared eplet summation data, CMS/NYSDOH has accepted our bead based XM (BBXM) method (aka, virtual XM) performed prior to transplant as fulfilling the regulation that XM results be available before kidney transplantation.

Moesin: A novel receptor on NK lymphocytes binds to TOMM40 on K562 leukemia cells initiating cytolysis.

Natural killer lymphocytes (NK cells) are the first line of defense (innate immunity) against viral infections and leukemia since they do not require activation to deliver a lethal hit to infected/aberrant cells. In contrast, T lymphocytes require stimulation by a foreign/neo - antigen, which may take days before they are active against the pathogen (adaptive immunity). A number of receptors on activated NK cells that kill the prototypical leukemia target cell line, K562, have been identified. To date, the receptor(s) by which freshly isolated unstimulated NK cells (naïve, nNK) kill K562 has not been fully elucidated. We provide peptide sequence and immune-blot data from ligand pull down experiments that moesin, a protein that typically links the inner leaf of the plasma membrane to the cytoskeleton, additionally, in NK cells, localizes to the cell surface where it may bind to its ligand, TOMM40 (aka Haymaker, HYMKR), on leukemia cells thereby initiating their destruction. Flow cytometry experiments with a mouse monoclonal antibody (Mab) to a moesin peptide (554 to 565) were performed. Moesin was detected on the surface of CD3-, CD16+nNK cells but was not detected on the surface of freshly isolated unstimulated CD3+, CD16- T cells or CD19+, CD16- B cells from healthy subjects. Moesin, is therefore another marker that distinguishes unstimulated CD3-, CD16+ NK cells from other non-activated lymphocytes. The anti -moesin peptide Mab was highly effective (>95% inhibition) in blocking target cell cytolysis by CD16+ lymphocytes demonstrating that moesin-HYMKR interaction appears to be necessary for most of the observed cell death of K562 caused by unstimulated NK cells.

Antibodies to cryptic epitopes on HLA class I and class II heavy chains bound to single antigen beads: Clinically relevant?

Cell surface HLA class I consists of trimers, i.e., alpha - heavy chain, beta - 2 - microglobulin, and a peptide, termed closed conformers (CC) on non-activated lymphocytes. HLA class I and class II may also exist, respectively, as alpha-chain only or alpha and beta - chain only on activated cells termed open conformers (OC). We extend previous studies using an OC-specific monoclonal antibody that demonstrate LABScreen HLA class I and II single antigen beads (SABs) contain a mixture of open and closed conformers. LIFECODES SABs have bound CC only. More HLA class I and class II LABScreen SABs were reactive than LIFECODES SABs due to the presence of OC on LABScreen SABs. We hypothesized that antibody against OC on HLA B antigens would not be detected in cell based cross matches (XMs) with typical lymphocyte targets since anti-HLA OC antibodies would not react with native HLA CC on the cell surface. To test this hypothesis, we performed flow cytometry XM (FCXM) assays with sera of sufficient strength that most laboratories would likely predict positive FCXMs. Sera that reacted strongly with LABScreen SABs (>13,000 MFI) but weakly or not at all with LIFECODES SABs (<1000 MFI) gave negative T and B cell FCXMs. In contrast, sera that reacted with LIFECODES SABs (>13,000 MFI) but weakly with LABScreen SABs (<2100 MFI) exhibited positive FCXMs. Detection of antibodies directed against OC in SAB assays, may lead to inappropriate listing of unacceptable antigens, a decision not to XM or pre-or post - transplant desensitization procedures.

HLA B53 is associated with a poor outcome in black COVID-19 patients.

A disproportionate incidence of death has occurred in African Americans (Blacks) in the United States due to COVID-19. The reason for this disparity is likely to be multi-factorial and may involve genetic predisposition. The association of human leukocyte antigens (HLA) with severe COVID-19 was examined in a hospitalized population (89% Black, n = 36) and compared to HLA typed non-hospitalized individuals (20% Black, n = 40) who had recovered from mild disease. For additional comparison, HLA typing data was available from kidney transplant recipients and deceased donors. Hospitalized patients were followed for 45 days after admission to our medical center with death as the primary end-point. One HLA allele, B53, appeared to be more prevalent in the hospitalized COVID-19 patients (percent of positive subjects, 30.5) compared to national data in US Black populations (percent of positive subjects, 24.5). The percent B53 positive in non-hospitalized COVID-19 patients was 2.6, significantly less than the percent positive in the hospitalized COVID-19 patients (p = 0.001, Fisher's exact test) and less than the 8 percent positive listed in national data bases for US Caucasian populations. Significantly greater deaths (73 percent) were observed in HLA B53 positive hospitalized COVID-19 patients compared to hospitalized COVID-19 patients who were B53 negative (40 percent). Multi-variate analysis indicated that HLA B53 positive Black hospitalized COVID-19 patients were at a 7.4 fold greater risk of death than Black COVID-19 patients who were B53 negative. Consideration for accelerated vaccination and treatment should be given to HLA B53 positive Black COVID19 patients.

Correlation of Automated Chemiluminescent Method with Enzyme-Linked Immunosorbent Assay (ELISA) Antibody Titers in Convalescent COVID-19 Plasma Samples: Development of Rapid, Cost-Effective Semi-Quantitative Diagnostic Methods.

BACKGROUND: We investigated the utility of an automated chemiluminescent SARS-CoV-2 IgG antibody assay platform in quantifying the amount of binding antibodies present in donated convalescent plasma. METHODS: A total of 179 convalescent plasma units were analyzed for the presence of SARS-CoV-2 IgG antibodies using the Beckman-Coulter chemiluminescent immunoassay (CLIA) platform. The equipment-derived numerical values (S/Co ratio) were recorded. Aliquots from the same units were subjected to enzyme-linked immunosorbent assay (ELISA) that detects IgG antibodies against the receptor-binding domain (RBD) of the SARS-CoV-2 S1 protein. The relationship between ELISA titers and CLIA S/Co values was analyzed using linear regression and receiver operating characteristics (ROC) curve. RESULTS: Twenty-one samples (11.7%) had S/Co values of less than 1.0 and were deemed negative for antibodies and convalescent plasma had S/Co values between >1.0 and 5.0 (70/179, 39.1%). Fifteen units (8.4%) had negative ELISA titer. The majority of the units (95/179. 53.1%) had titers ≥1:1024. The sensitivities of ELISA to CLIA were comparable (90.5% vs 88.3%, respectively; p=0.18). There was positive linear correlation between CLIA S/Co values and ELISA IgG titer (Rho = 0.75; Spearman's rank = 0.82, p-value = <0.0001). The agreement between the two methods was fair, with a κ index of 0.2741. Using the ROC analysis, we identified a CLIA S/Co cutoff value of 8.2, which gives a sensitivity of 90% and a specificity of 82% in predicting a titer dilution of ≥1:1024. CONCLUSION: The utility of automated antibody detection systems can be extended from simply a screening method to a semi-quantitative and quantitative functional antibody analysis. CLIA S/Co values can be used to reliably estimate the ELISA antibody titer. Incorporation of chemiluminescent-based methods can provide rapid, cost-effective means of identifying anti-SARS-CoV-2 antibody titers in donated plasma for use in the treatment of COVID-19 infection.

Administration of high titer convalescent anti-SARS-CoV-2 plasma: From donor selection to monitoring recipient outcomes.

Early in the SARS-CoV-2 pandemic, convalescent plasma (CP) therapy was proposed as a treatment for severely ill patients. We conducted a CP treatment protocol under the Mayo Clinic Extended Access Program at University Hospital Brooklyn (UHB). Potential donors were screened with a lateral flow assay (LFA) for IgM and IgG antibodies against the SARS-CoV-2 S1 receptor-binding domain (RBD). Volunteers that were LFA positive were tested with an ELISA to measure IgG titers against the RBD. Subjects with titers of at least 1:1024 were selected to donate. Most donors with positive LFA had acceptable titers and were eligible to donate. Out of 171 volunteers, only 65 tested positive in the LFA (38.0%), and 55 (32.2%) had titers of at least 1:1024. Before our donation program started, 31 CP units were procured from the New York Blood Center (NYBC). Among the 31 CP units that were obtained from the NYBC, 25 units (80.6%) were positive in the LFA but only 12 units (38.7%) had titers of at least 1:1024. CP was administered to 28 hospitalized COVID-19 patients. Patients who received low titer CP, high titer CP and patients who did not receive CP were followed for 45 days after presentation. Severe adverse events were not associated with CP transfusion. Death was a less frequent outcome for patients that received high titer CP (>1:1024) 38.6% mortality, than patients that received low titer CP (≤1:1024) 77.8% mortality.

Haymaker gene expression in malignant and normal gynecologic tissues.

We previously reported that cell lines established from human carcinomas and leukemias/lymphomas expressed high levels of an intracellular membrane-bound protein, Haymaker, whereas cell lines derived from non-malignant connective tissue cells and lymphoid cells expressed low levels of this gene product. To determine whether these findings reflect neoplastic transformation or, alternatively, tissue specificity, we examined by immunohistochemical and molecular methods the expression of Haymaker in gynecologic organs with and without tumor. A highly specific, affinity-purified rabbit polyclonal antibody against a 25-mer Haymaker peptide was used for immunohistochemical staining and morphometric analysis of 85 tissue specimens. Immunohistochemical studies demonstrate, for the first time, that Haymaker protein is highly expressed in epithelial cells of the endometrium of the normal uterus and to a somewhat lesser extent in the mucosa of the normal vagina and cervix, but is poorly expressed or absent in cells of the connective tissue and smooth muscle strata of these organs (p < 0.005). Significant differences in Haymaker expression, as assessed by immunohistochemistry, between malignant and normal gynecologic tissues were not observed (p = 0.27). The expression of Haymaker protein does not appear, therefore, to be a marker of malignant transformation of the epithelium of gynecologic organs but rather distinguishes both normal and malignant epithelial cells from normal connective tissue and smooth muscle cells.

Difference in target cell recognition of naive and activated human natural killer cells: role of Haymaker (p38.5) in tumoricidal activity.

The human Haymaker gene, at 19q13.2 in the Leukocyte Receptor-Receptor-Related Complexes, encodes a 38.5-kDa non-MHC protein found on the plasma membrane of tumor cell lines that are highly susceptible to lysis by naive (unstimulated) natural killer (nNK) cells. We hypothesized that Haymaker might act as a ligand in the tumoricidal activity of nNK cells because this molecule was absent from the surface of malignant cell lines that were resistant to their cytolytic activity. We examined the capacity of this protein to act as a ligand in the tumoricidal activity of freshly isolated nNK cells and IL-2 activated natural killer (NK) cells (aNK cells) by performing blocking studies with recombinant Haymaker (r-Haymaker) and peptide-specific anti-Haymaker antibodies. These competition studies demonstrated that both r-Haymaker and anti-Haymaker antibodies inhibited the tumoricidal function of nNK but not aNK cells. We conclude that Haymaker likely plays an essential role as an activating ligand in nNK-cell-mediated cytotoxicity, whereas the tumoricidal activity of aNK cells is, for the most part, induced by other molecules.