Mina Kalantari-Dehaghi

Pemphigus vulgaris autoantibody profiling by proteomic technique.

Pemphigus vulgaris (PV) is a mucocutaneous blistering disease characterized by IgG autoantibodies against the stratified squamous epithelium. Current understanding of PV pathophysiology does not explain the mechanism of acantholysis in patients lacking desmoglein antibodies, which justifies a search for novel targets of pemphigus autoimmunity. We tested 264 pemphigus and 138 normal control sera on the multiplexed protein array platform containing 701 human genes encompassing many known keratinocyte cell-surface molecules and members of protein families targeted by organ-non-specific PV antibodies. The top 10 antigens recognized by the majority of test patients’ sera were proteins encoded by the DSC1, DSC3, ATP2C1, PKP3, CHRM3, COL21A1, ANXA8L1, CD88 and CHRNE genes. The most common combinations of target antigens included at least one of the adhesion molecules DSC1, DSC3 or PKP3 and/or the acetylcholine receptor CHRM3 or CHRNE with or without the MHC class II antigen DRA. To identify the PV antibodies most specific to the disease process, we sorted the data based on the ratio of patient to control frequencies of antigen recognition. The frequency of antigen recognition by patients that exceeded that of control by 10 and more times were the molecules encoded by the CD33, GP1BA, CHRND, SLC36A4, CD1B, CD32, CDH8, CDH9, PMP22 and HLA-E genes as well as mitochondrial proteins encoded by the NDUFS1, CYB5B, SOD2, PDHA1 and FH genes. The highest specificity to PV showed combinations of autoantibodies to the calcium pump encoded by ATP2C1 with C5a receptor plus DSC1 or DSC3 or HLA-DRA. The results identified new targets of pemphigus autoimmunity. Novel autoantibody signatures may help explain individual variations in disease severity and treatment response, and serve as sensitive and specific biomarkers for new diagnostic assays in PV patients.

Discovery of Potential Diagnostic and Vaccine Antigens in Herpes Simplex Virus 1 and 2 by Proteome-Wide Antibody Profiling

ABSTRACT Routine serodiagnosis of herpes simplex virus (HSV) infections is currently performed using recombinant glycoprotein G (gG) antigens from herpes simplex virus 1 (HSV-1) and HSV-2. This is a single-antigen test and has only one diagnostic application. Relatively little is known about HSV antigenicity at the proteome-wide level, and the full potential of mining the antibody repertoire to identify antigens with other useful diagnostic properties and candidate vaccine antigens is yet to be realized. To this end we produced HSV-1 and -2 proteome microarrays in Escherichia coli and probed them against a panel of sera from patients serotyped using commercial gG-1 and gG-2 (gGs for HSV-1 and -2, respectively) enzyme-linked immunosorbent assays. We identified many reactive antigens in both HSV-1 and -2, some of which were type specific (i.e., recognized by HSV-1- or HSV-2-positive donors only) and others of which were nonspecific or cross-reactive (i.e., recognized by both HSV-1- and HSV-2-positive donors). Both membrane and nonmembrane virion proteins were antigenic, although type-specific antigens were enriched for membrane proteins, despite being expressed in E. coli.

Mechanisms of Mitochondrial Damage in Keratinocytes by Pemphigus Vulgaris Antibodies

Background: Previous studies suggested that mitochondrial antibodies contribute to pemphigus vulgaris (PV). Results: PV sera elicited mitochondrial damage, and mitochondria-protecting drugs exhibited protective effect in cell culture and mouse skin. Conclusion: PV antibodies altered O2 respiration, disrupted electron transfer chain, and increased reactive oxygen species. Significance: Results provide the mechanism of therapeutic action and justify the use of mitochondria-protecting drugs in PV. The development of nonhormonal treatment of pemphigus vulgaris (PV) has been hampered by a lack of clear understanding of the mechanisms leading to keratinocyte (KC) detachment and death in pemphigus. In this study, we sought to identify changes in the vital mitochondrial functions in KCs treated with the sera from PV patients and healthy donors. PV sera significantly increased proton leakage from KCs, suggesting that PV IgGs increase production of reactive oxygen species. Indeed, measurement of intracellular reactive oxygen species production showed a drastic increase of cell staining in response to treatment by PV sera, which was confirmed by FACS analysis. Exposure of KCs to PV sera also caused dramatic changes in the mitochondrial membrane potential detected with the JC-1 dye. These changes can trigger the mitochondria-mediated intrinsic apoptosis. Although sera from different PV patients elicited unique patterns of mitochondrial damage, the mitochondria-protecting drugs nicotinamide (also called niacinamide), minocycline, and cyclosporine A exhibited a uniform protective effect. Their therapeutic activity was validated in the passive transfer model of PV in neonatal BALB/c mice. The highest efficacy of mitochondrial protection of the combination of these drugs found in mitochondrial assay was consistent with the ability of the same drug combination to abolish acantholysis in mouse skin. These findings provide a theoretical background for clinical reports of the efficacy of mitochondria-protecting drugs in PV patients. Pharmacological protection of mitochondria and/or compensation of an altered mitochondrial function may therefore become a novel approach to development of personalized nonhormonal therapies of patients with this potentially lethal autoimmune blistering disease.

New targets of pemphigus vulgaris antibodies identified by protein array technology

Abstract:  We performed partial evaluation of pemphigus vulgaris (PV) autoantibody profile using the protein array technology. The sera from seven patients with acute PV and five healthy donors were probed for the presence of autoantibodies characteristic of the organ‐non‐specific autoimmune disorders rheumatoid arthritis, lupus erythematosus, scleroderma, diabetes and some other autoimmune disorders, but not to desmosomal proteins. The array targeted 785 human genes amplified using Mammalian Gene Clone Collection with gene‐specific primers containing 20‐bp nucleotide extension complementary to ends of linear pXT7 vector. The array identified PV antibodies significantly (P < 0.05) differentially reactive with 16 antigens, most of which were cell‐surface proteins, such as CD2, CD31, CD33, CD36, CD37, CD40, CD54, CD66c and CD84 molecules, nicotinamide/nicotinic acid mononucleotide adenylyltransferase, immunoglobulin heavy chain constant region gamma 2 and others. Reactivity with Fc‐IgG helps explain an ability of the chimeric desmoglein constructs to absorb out all disease‐causing PV antibodies. Anti‐M1 muscarinic receptor antibody was also identified, consistent with the facts that while blockade of this receptor causes keratinocyte detachment, its activation is therapeutic in PV. Further proteomics analysis of PV antibodies should help elucidate the immunopathogenic mechanisms underlying keratinocyte detachment and blistering.

Novel cholinergic peptides SLURP-1 and -2 regulate epithelialization of cutaneous and oral wounds.

It is well established that auto/paracrine acetylcholine (ACh) is essential for wound epithelialization, and that the mechanisms include regulation of keratinocyte motility and adhesion via nicotinic ACh receptors (nAChRs). Keratinocyte nAChRs can be also activated by non‐canonical ligands, such as secreted mammalian Ly‐6/urokinase‐type plasminogen activator receptor‐related protein (SLURP)‐1 and ‐2. In this study, we determined effects of recombinant (r)SLURP‐1 and‐2 on migration of human epidermal and oral keratinocytes under agarose and epithelialization of cutaneous and oral mucosal excisional wounds in mice, and also identified nAChRs mediating SLURP signals. Both in vitro and in vivo, rSLURP‐1 decreased and SLURP‐2 increased epithelialization rate. The mixture of both peptides accelerated epithelialization even further, indicating that their simultaneous signaling renders an additive physiologic response. The specificity of rSLURP actions was illustrated by similar effects on cutaneous and oral wounds, which feature distinct responses to injury, and also by abrogation of rSLURP effects with neutralizing antibodies. rSLURP‐1 acted predominantly via the α7 nAChR‐coupled up‐regulation of the sedentary integrins α2 and α3, whereas SLURP‐2—through α3, and α9 nAChRs up‐regulating migratory integrins α5 and αV. The biologic effects of rSLURPs required the presence of endogenous ACh, indicating that auto/paracrine SLURPs provide for a fine tuning of the physiologic regulation of crawling locomotion via the keratinocyte ACh axis. Since nAChRs have been shown to regulate SLURP production, cholinergic regulation of keratinocyte migration appears to be mediated by a reciprocally arranged network. The cholinergic peptides, therefore, may become prototype drugs for the treatment of wounds that fail to heal.

Humoral immune responses to Plasmodium falciparum among HIV-1-infected Kenyan adults.

Introduction: Humoral immune responses play a pivotal role in naturally acquired immunity to malaria. Understanding which humoral responses are impaired among individuals at higher risk for malaria may improve our understanding of malaria immune control and contribute to vaccine development.

Diagnostic value of a Rec-ELISA using Toxoplasma gondii recombinant SporoSAG, BAG1, and GRA1 proteins in murine models infected orally with tissue cysts and oocysts.

Toxoplasma gondii causes congenital toxoplasmosis in newborns resulting with fetal anomalies. Determining the initiation time of infection is very important for pregnant women and current serological assays have drawbacks in distinguishing the recently acute toxoplasmosis. Diagnosis of recently acute infection may be improved by using stage specific antigens in serological assays. In the present study, the diagnostic value of sporozoite specific SporoSAG, bradyzoite specific BAG1 proteins and GRA1 protein expressed by all forms of the parasite have been evaluated ELISA using sera systematically collected from mice administered orally with tissue cyst and oocysts. The anti-SporoSAG IgM antibodies in sera obtained from mice infected with oocysts peaked significantly at days 1, 10, and 15 (P<0.01). The anti-BAG1 IgM antibodies in sera obtained from mice infected with tissue cysts peaked significantly at days 15, 40, and 120 (P<0.05). The anti-GRA1 IgM antibodies in sera obtained from mice infected with oocysts peaked significantly at days 2, 10, and 40 (P<0.01). The anti-GRA1 IgM antibodies in sera obtained from mice infected with tissue cysts peaked significantly only at day 40 (P<0.05). The anti-SporoSAG, anti-BAG1, and anti-GRA1 IgG titers of mice showed significant increases at day 40 (P<0.05) and decrement started for only anti-GRA1 IgG at day 120. The presence of anti-SporoSAG IgM and IgG antibodies can be interpreted as recently acute infection between days 10–40 because IgM decreases at day 40. Similarly, presence of anti-BAG1 IgM and absence of IgG can be evaluated as a recently acute infection that occurred 40 days before because IgG peaks at day 40. A peak in anti-GRA1 antibody level at first testing and reduction in consecutive sample can be considered as an infection approximately around day 40 or prior. Overall, recombinant SporoSAG, BAG1 and GRA1 proteins can be accepted as valuable diagnostic markers of recently acute toxoplasmosis.

Reciprocal effects of NNK and SLURP-1 on oncogene expression in target epithelial cells

AIMS To elucidate how the nicotinic acetylcholine receptors expressed on bronchial and oral epithelial cells targeted by the tobacco nitrosamine (4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone) (NNK) facilitate carcinogenic transformation. MAIN METHODS Since NNK-dependent transformation can be abolished by the nicotinergic secreted mammalian Ly-6/urokinase plasminogen activator receptor related protein-1 (SLURP-1), we compared effects of NNK and recombinant (r)SLURP-1 on the expression of genes related to tumorigenesis in human immortalized bronchial and oral epithelial cell lines BEP2D and Het-1A, respectively. KEY FINDINGS NNK stimulated expression of oncogenic genes, including MYB and PIK3CA in BEP2D, ETS1, NRAS and SRC in Het-1A, and AKT1, KIT and RB1 in both cell types, which could be abolished in the presence of rSLURP-1. Other cancer-related genes whose upregulation by NNK was abolishable by rSLURP-1 were the growth factors EGF in BEP2D cells and HGF in Het-1A cells, and the transcription factors CDKN2A and STAT3 (Het-1A only). NNK also upregulated the anti-apoptotic BCL2 (Het-1A) and downregulated the pro-apoptotic TNF (Het-1A), BAX and CASP8 (BEP2D), all of which could be abolished, in part, by rSLURP-1. NNK decreased expression of the CTNNB1 gene encoding the intercellular adhesion molecule β-catenin (BEP2D), as well as tumor suppressors CDKN3 and FOXD3 in BEP2D cells and SERPINB5 in Het-1A cells. These pro-oncogenic effects of NNK were abolished by rSLURP-1 that also upregulated RUNX3. SIGNIFICANCE The obtained results identified target genes for both NNK and SLURP-1 and shed light on the molecular mechanism of their reciprocal effects on tumorigenic transformation of bronchial and oral epithelial cells.

Development of novel approach to diagnostic imaging of lung cancer with 18F-Nifene PET/CT using A/J Mice treated with NNK

Development of novel methods of early diagnosis of lung cancer is one of the major tasks of contemporary clinical and experimental oncology. In this study, we utilized the tobacco nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK)-induced lung cancer in A/J mice as an animal model for development of a new imaging technique for early diagnosis of lung cancer. Lung cancer cells in A/J mice overexpress nicotinic acetylcholine receptors. Longitudinal CT scans were carried out over a period of 8 months after NNK treatment, followed by PET/CT scans with 18F-Nifene that binds to α4-made nicotinic receptors with high affinity. PET/CT scans of lungs were also obtained ex vivo. CT revealed the presence of lung nodules in 8-month NNK-treated mice, while control mice had no tumors. Imaging of live animals prior to necropsy allowed correlation of results of tumor load via PET/CT and histopathological findings. Significant amount of 18F-Nifene was seen in the lungs of NNK-treated mice, whereas lungs of control mice showed only minor uptake of 18F-Nifene. Quantitative analysis of the extent and amount of 18F-Nifene binding in lung in vivo and ex vivo demonstrated a higher tumor/nontumor ratio due to selective labeling of tumor nodules expressing abundant α4 nicotinic receptor subunits. For comparison, we performed PET/CT studies with 18F-FDG, which is used for the imaging diagnosis of lung cancer. The tumor/nontumor ratios for 18F-FDG were lower than for 18F-Nifene. Thus, we have developed a novel diagnostic imaging approach to early diagnosis of lung cancer using 18F-Nifene PET/CT. This technique allows quantitative assessment of lung tumors in live mice, which is critical for establishing tumor size and location, and also has salient clinical implications.

The nicotinic acetylcholine receptor-mediated reciprocal effects of the tobacco nitrosamine NNK and SLURP-1 on human mammary epithelial cells

Recent research has demonstrated that the nicotinergic signaling network of mammary epithelium can both mediate the physiological control of normal breast epithelial cells (BECs) and exhibit tumor-promoting effects on malignant BECs. Therefore, mammary nicotinic acetylcholine (ACh) receptors (nAChRs) may become a specific target for novel anti-breast cancer therapies. Toward this goal, we investigated the difference in the ACh receptor repertoires between normal and malignant BECs, determined effects of nicotinic ligands on 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK)-dependent activation of ERK1/2 and tumorigenic transformation of MCF10A cells, and characterized reciprocal effects of NNK and SLURP (secreted mammalian Ly-6/urokinase plasminogen activator receptor related protein-1)-1 on the expression of nAChR subunits and several oncogenes and tumor-suppressing genes in BECs. Both the non-malignant MCF10A and malignant MCF7 breast cells expressed α3, α5, α7, α9, α10, β1, β2, γ, δ and ε nAChR subunits and M(1), M(3), M(4) and M(5) muscarinic receptor subtypes. The malignancy was associated with expression of α1, α4 and β4 nAChR subunits and M(2) subtype. Malignant transformation of BECs was also associated with overexpression of α7-, and α9-made nAChRs. NNK upregulated ERK1/2 phosphorylation, stimulated expression of the gene encoding the tumor-promoter HGF, downregulated expression of the tumor suppressor gene CDKN2A, and induced tumorigenic transformation of MCF10A cells. Compared to the canonical nAChR antagonists, SLURP-1 showed the highest ability to abolish the nAChR-mediated effects of NNK in both cell-signaling and cell-transformation assays and reversed many effects of NNK on gene expression. SLURP-1 also markedly upregulated the tumor suppressor genes CDKN2B, RUNX3 and TP73. Altogether, the obtained results provided new insight into the molecular mechanisms of nAChR-mediated oncogenic effects of NNK on BECs and demonstrated the ability to abolish or reverse these effects by SLURP-1.