External and Genetic Conditions Determining Male Infertility.

We explain environmental and genetic factors determining male genetic conditions and infertility and evaluate the significance of environmental stressors in shaping defensive responses, which is used in the diagnosis and treatment of male infertility. This is done through the impact of external and internal stressors and their instability on sperm parameters and their contribution to immunogenetic disorders and hazardous DNA mutations. As chemical compounds and physical factors play an important role in the induction of immunogenetic disorders and affect the activity of enzymatic and non-enzymatic responses, causing oxidative stress, and leading to apoptosis, they downgrade semen quality. These factors are closely connected with male reproductive potential since genetic polymorphisms and mutations in chromosomes 7, X, and Y critically impact on spermatogenesis. Microdeletions in the Azoospermic Factor AZF region directly cause defective sperm production. Among mutations in chromosome 7, impairments in the cystic fibrosis transmembrane conductance regulator CFTR gene are destructive for fertility in cystic fibrosis, when spermatic ducts undergo complete obstruction. This problem was not previously analyzed in such a form. Alongside karyotype abnormalities AZF microdeletions are the reason of spermatogenic failure. Amongst AZF genes, the deleted in azoospermia DAZ gene family is reported as most frequently deleted AZF. Screening of AZF microdeletions is useful in explaining idiopathic cases of male infertility as well as in genetic consulting prior to assisted reproduction. Based on the current state of research we answer the following questions: (1) How do environmental stressors lessen the quality of sperm and reduce male fertility; (2) which chemical elements induce oxidative stress and immunogenetic changes in the male reproductive system; (3) how do polymorphisms correlate with changes in reproductive potential and pro-antioxidative mechanisms as markers of pathophysiological disturbances of the male reproductive condition; (4) how do environmental stressors of immunogenetic disorders accompany male infertility and responses; and (5) what is the distribution and prevalence of environmental and genetic risk factors.

Chromosomal instability and pro-inflammatory response in aging.

Aging refers to the progressive deterioration of tissue and organ function over time. Increasing evidence points to the accumulation of highly damaged cell cycle-arrested cells with age (cellular senescence) as major reason for the development of certain aging-associated diseases. Recent studies have independently shown that aneuploidy, an abnormal chromosome set, occurs in senescent cells, and that the accumulation of cytoplasmic DNA driven by faulty chromosome segregation during mitosis aids in the establishment of senescence and its associated secretory phenotype known as SASP. Here we review the emerging link between chromosomal instability (CIN) and senescence in the context of aging, with emphasis on the cGAS-STING pathway activation and its role in the development of the SASP. Based on current evidence, we propose that age-associated CIN in mitotically active cells contributes to aging and its associated diseases, and we discuss the inhibition of CIN as a potential strategy to prevent the generation of aneuploid senescent cells and thereby to delay aging.

Sexual dimorphism in solid and hematological malignancies.

Cancer represents a leading cause of death with continuously increasing incidence worldwide. Many solid cancer types in non-reproductive organs are significantly more frequent and deadly in males compared to females. This sex-biased difference is also present in hematologic malignancies. In this review, we present an overview about sex differences in cancer with a focus on leukemia. We discuss mechanisms potentially underlying the observed sex-biased imbalance in cancer incidence and outcome including sex hormones, sex chromosomes, and immune responses. Besides affecting the pathobiology of cancers, sex differences can also influence drug responses, most notably those to immune checkpoint blockers. Therefore, sex should become a relevant factor in clinical trial design in order to avoid over- or under-treatment of one sex.

Chromosome Conformation Capture for Research on Innate Antiviral Immunity.

Chromosome conformation capture (3C) technology has revolutionized our knowledge on chromatin folding and nuclear organization. This cis-loop detection approach can be used to identify candidate regulatory elements interacting with target gene of interest. This chapter introduces the application of 3C technique to investigate a dynamic alteration in the chromosome folding structure or genomic architecture resulting from interaction changes between the enhancer and its target gene. Innate antiviral immunity is one of the well-known gene induction systems, involving rapid first-line response to virus or pathogen to trigger gene expression changes in order to protect cells and to limit further infection. Thus, the 3C technique can be a powerful tool for exploring how enhancers control expression of immunity genes during virus infection. 3C assay consists of four major steps: Cross-linking with formaldehyde, restriction enzyme digestion, ligation of cross-linked DNA fragments, and quantitative data analysis. Here, we discuss in detail the design, application, and data analysis of a 3C experiment.

MALT lymphoma: Genetic abnormalities, immunological stimulation and molecular mechanism.

Extranodal marginal zone lymphoma of mucosa-associated lymphoid tissue (MALT lymphoma) occurs at diverse anatomic sites and is closely associated with several distinct chronic inflammatory disorders. Both the acquired genetic abnormalities and active chronic immunological responses play a critical role in the development of MALT lymphoma, interestingly by dysregulating similar molecular mechanisms. The three translocations seen in MALT lymphoma, namely t(14;18)(q32;q21)/IGH-MALT1, t(1;14)(p22;q32)/BCL10-IGH, and t(11;18)(q21;q21)/BIRC3 (API2)-MALT1 are capable of activating both canonical and non-canonical NF-κB pathways. TNFAIP3 (A20) inactivation by deletion and/or mutation abolishes its negative regulation to several signalling including BCR and TLR, which activate the canonical NF-κB pathway. Similarly, the immunological responses also activate the canonical NF-κB pathway via surface antigen receptor and TLR, and the non-canonical NF-κB pathway by T-cell help and BAFFR. There is also emerging evidence indicating oncogenic cooperation between the above genetic changes and immunological stimulation in the pathogenesis of MALT lymphoma.

Comprehensive characterization of programmed death ligand structural rearrangements in B-cell non-Hodgkin lymphomas.

Programmed death ligands (PDLs) are immune-regulatory molecules that are frequently affected by chromosomal alterations in B-cell lymphomas. Although PDL copy-number variations are well characterized, a detailed and comprehensive analysis of structural rearrangements (SRs) and associated phenotypic consequences is largely lacking. Here, we used oligonucleotide capture sequencing of 67 formalin-fixed paraffin-embedded tissues derived from primary B-cell lymphomas and 1 cell line to detect and characterize, at base-pair resolution, SRs of the PDL locus (9p24.1; harboring PDL1/CD274 and PDL2/PDCD1LG2). We describe 36 novel PDL SRs, including 17 intrachromosomal events (inversions, duplications, deletions) and 19 translocations involving BZRAP-AS1, CD44, GET4, IL4R, KIAA0226L, MID1, RCC1, PTPN1 and segments of the immunoglobulin loci. Moreover, analysis of the precise chromosomal breakpoints reveals 2 distinct cluster breakpoint regions (CBRs) within either CD274 (CBR1) or PDCD1LG2 (CBR2). To determine the phenotypic consequences of these SRs, we performed immunohistochemistry for CD274 and PDCD1LG2 on primary pretreatment biopsies and found that PDL SRs are significantly associated with PDL protein expression. Finally, stable ectopic expression of wild-type PDCD1LG2 and the PDCD1LG2-IGHV7-81 fusion showed, in coculture, significantly reduced T-cell activation. Taken together, our data demonstrate the complementary utility of fluorescence in situ hybridization and capture sequencing approaches and provide a classification scheme for PDL SRs with implications for future studies using PDL immune-checkpoint inhibitors in B-cell lymphomas.

Genome-wide association study of antibody responses to Plasmodium falciparum candidate vaccine antigens.

We conducted a genome-wide association study (GWAS) of antibody responses directed to three Plasmodium falciparum vaccine candidate antigens (MSP1, MSP2 and GLURP) previously associated with different patterns of protection against malaria infection in Senegalese children. A total of 174 950 single-nucleotide polymorphisms (SNPs) were tested for association with immunoglobulin G1 (IgG1) responses directed to MSP1 and to GLURP and with IgG3 responses to MSP2 FC27 and to MSP2 3D7. We first performed a single-trait analysis with each antibody response and then a multiple-trait analysis in which we analyzed simultaneously the three immune responses associated with the control of clinical malaria episodes. Suggestive associations (P<1 × 10(-4)) were observed for 25 SNPs in MSP1 antibody response analysis or in multiple-trait analysis. According to the strength of their observed associations and their functional role, the following genes are of particular interest: RASGRP3 (2p22.3, P=7.6 × 10(-6)), RIMS1 (6q13, P=2.0 × 10(-5)), MVB12B (9q33.3, P=8.9 × 10(-5)) and GNPTAB (12q23.2, P=7.4 × 10(-5)). Future studies will be required to replicate these findings in other African populations. This work will contribute to the elucidation of the host genetic factors underlying variable immune responses to P. falciparum.

Immunogenetic study in Chinese population with ankylosing spondylitis: are there specific genes recently disclosed?

PURPOSE: Ankylosing spondylitis (AS) is a systemic, autoimmune disease resulting in the destruction of the affected joints. Over the past 5 years, several new genes or genetic regions associated with AS have been identified in the Chinese population. This paper aims to discuss the major findings and related potential mechanisms of these studies in our population. RECENT FINDINGS: In recent years, due to the rapid advances in computational genetics and technology, there has been an increasing list of well-validated genes or genetic regions associated with AS susceptibility. So far, several genes or genetic regions have now been reported in the Han ethnic Chinese population, containing the major histocompatibility complex (MHC), ERAP1, IL-23R, 12q12, 2p15, 5q14.3, and so on. Different hypotheses for disease mechanisms have been investigated on the basis of the functional studies of these genes or genetic regions. SUMMARY: This paper tries to summarize the association of several candidate genes with risk for AS in the Han ethnic Chinese population and aims to identify the novel inflammatory pathways and provide potential strategies for better therapies.

Host genetic factors in susceptibility to herpes simplex type 1 virus infection: contribution of polymorphic genes at the interface of innate and adaptive immunity.

HSV-1 establishes life-long latency that can result in clinical relapses or in asymptomatic virus shedding. Although virtually all adults have been exposed to HSV-1, the clinical course varies remarkably. Genetic host variability could be related to this clinical diversity. In this study, we analyzed the contribution of gene families in chromosomes 1, 6, 12, and 19, which encode key regulators of the innate and adaptive immunity, in a cohort of 302 individuals. Class I and class II alleles of the HLA system, the copy-number variation of NK cell receptor genes (KIR and NKG2C), the combinations of killer cell Ig-like receptor and their HLA ligands, and CD16A and CD32A allotypes of variable affinity for IgG subclasses were all studied. Although no major susceptibility locus for HSV-1 was identified, our results show that the risk of suffering clinical HSV-1 infection is modified by MHC class I allotypes (B*18, C*15, and the group of alleles encoding A19), the high-affinity receptor/ligand pair KIR2DL2/HLA-C1, and the CD16A-158V/F dimorphism. Conversely, HLA class II and CD32A polymorphisms and NKG2C deletion did not seem to influence the clinical course of herpetic infection. Collectively, these findings support an important role in host defense against herpetic infection for several polymorphic genes implicated in adaptive immunity and in surveillance of its subversion. They confirm the crucial role of cytotoxic cells (CTL and NK) and the contribution of genetic diversity to the clinical course of HSV-1 infection.

Inhibitory and activatory KIR gene frequencies in the Polish population.

Killer cell immunoglobulin-like receptors (KIRs) present on natural killer cells and minor subpopulations of T cells recognize class I human leukocyte antigen (HLA) molecules on the surface of target cells. Human individuals differ by the presence or absence of some KIR genes on their chromosomes (haplotypic polymorphism). As KIRs (especially two-immunoglobulin-domain-like containing, or KIR2D, molecules) are important for the outcome of tissue (particularly for haematopoietic stem cell) transplantation and possibly for pregnancy, the knowledge of KIR gene distribution in a given human population is of practical value. Therefore, we tested 175 healthy individuals from Poland for the presence or absence of these KIR genes which show haplotypic polymorphism and are expressed. Results were compared with those published for other human populations, showing close relations with other Caucasoids.

CD4+CD3- cells regulate the organization of lymphoid tissue and T-cell memory for antibody responses.

This review highlights the role of a CD4(+)CD3(-) accessory cell in the development of organized lymphoid infrastructures as well as in the development of high-affinity antibody responses and T-cell memory. These 2 functions are linked in the development of the vertebrate immune system and are effected by the constitutive expression of 2 sets of tumor necrosis factor (TNF) family members. The expression of lymphotoxin 3 (LT3), LT3, and TNF-3, which are closely linked genetically, affects the organization of lymphoid structures into B-cell and T-cell areas; the dual expression of OX40 ligand (TNFSF4) and CD30 ligand (TNFSF8) influences both the survival of T-cells within germinal centers and T-cell memory.

Generation of monoclonal antibodies against chromosomal antigens that have a high sequence similarity between human and mouse.

We raised monoclonal antibodies by immunizing mice with total chromosome proteins extracted from isolated human metaphase chromosomes. The indirect immunofluorescence screening of hybridoma cell lines provided 15 monoclonal antibodies against the chromosomal antigens. The antigen proteins of the mAbs were identified by immunoblotting as core histones or by immunoprecipitation followed by a peptide mass fingerprinting method as nuclear mitotic apparatus protein, heterogeneous nuclear ribonucleoprotein A2/B1, ribosomal protein S4, linker histone and beta-actin. During mitosis, localizations of these proteins on chromosomes were clearly observed using the obtained antibodies. These results indicate that the current strategy is effective for obtaining monoclonal antibodies useful for immunoblotting and/or immunofluorescent staining of human proteins, using the antigens with high homology to mouse proteins.

Spatial and temporal regulation of Condensins I and II in mitotic chromosome assembly in human cells.

Two different condensin complexes make distinct contributions to metaphase chromosome architecture in vertebrate cells. We show here that the spatial and temporal distributions of condensins I and II are differentially regulated during the cell cycle in HeLa cells. Condensin II is predominantly nuclear during interphase and contributes to early stages of chromosome assembly in prophase. In contrast, condensin I is sequestered in the cytoplasm from interphase through prophase and gains access to chromosomes only after the nuclear envelope breaks down in prometaphase. The two complexes alternate along the axis of metaphase chromatids, but they are arranged into a unique geometry at the centromere/kinetochore region, with condensin II enriched near the inner kinetochore plate. This region-specific distribution of condensins I and II is severely disrupted upon depletion of Aurora B, although their association with the chromosome arm is not. Depletion of condensin subunits causes defects in kinetochore structure and function, leading to aberrant chromosome alignment and segregation. Our results suggest that the two condensin complexes act sequentially to initiate the assembly of mitotic chromosomes and that their specialized distribution at the centromere/kinetochore region may play a crucial role in placing sister kinetochores into the back-to-back orientation.

An examination of different fetal specific antibodies and magnetic activated cell sorting for the enrichment of fetal erythroblasts from maternal blood.

The aim of the present study was to compare the rates of fetal cells obtained after separation from maternal blood by magnetic activated cell sorting (MACS) using different fetal specific antibodies, and to evaluate the potential role of this method in the prenatal diagnosis of fetal trisomies. Peripheral blood samples were obtained from 42 women carrying chromosomally normal fetuses and from 4 women with aneuploid fetuses (2 cases of 47,XX,+18 and 2 of 47,XY,+21) at 9-20 weeks of gestation. After fetal cells were enriched by MACS with three different monoclonal antibodies (GPA, CD71, CD14), fluorescence in situ hybridization (FISH) with chromosome X, and Y-specific probes was performed to detect the rates of fetal cells in the samples sorted. FISH with chromosome 13-, 18-, and 21-specific probes was carried out to compare proportions of cells with three-signal nuclei in chromosomally normal and abnormal groups. In male infants, X- and Y-positive cells were detected in 80%, 73.3%, and 66.6% of samples after the separation by antibodies CD14, GPA, and CD71, respectively. The percentage of nuclei with three signals was increased in pregnancies with trisomy, ranging between 2% and 5.18%. Pregnancies with normal fetuses showed 0 to 3.7% of nuclei with three signals. The data demonstrate that fetal cell detection varies depending on the antibodies used for cell sorting. This study provides further evidence on the feasibility of screening for fetal chromosomal abnormalities by enriching maternal blood for fetal cells and using FISH.

Novel human autoantibodies to phosphoepitopes on mitotic chromosomal autoantigens (MCAs).

BACKGROUND: Human autoantibodies to proteins of the mitotic apparatus have demonstrated clinical utility and usefulness as molecular probes for identification and characterization of novel autoantigens, as exemplified by autoantibodies to centromere proteins. In contrast, there have been very few reports of autoantibodies with reactivity to antigens located along mitotic chromosome arms, but not in interphase nuclei. The purpose of this study was to identify and characterize autoantibodies with reactivity to mitotic chromosomal antigens (MCAs) located exclusively on mitotic chromosome arms, and to determine if patients with these autoantibodies have common clinical features. METHODS: Routine immunofluorescence screening of serum samples referred for antinuclear antibody investigation over a 10-year period was used to identify autoantibodies to MCAs. MCAs were identified by exclusive immunofluorescence staining of mitotic chromosome arms with no staining of interphase nuclei. MCA-reactive sera were further characterized for patterns of staining on mitotic chromosome arms and sensitivities to chemical and enzymatic treatments, and for one of these sera, its ability to abrogate progression through mitosis when microinjected into cells. RESULTS: Of 60,000 sera screened for antinuclear antibodies by immunofluorescence, we identified three IgG autoantibodies reacting exclusively to MCAs. The anti-MCA autoantibodies did not react with condensed chromatin in spermatozoa or in apoptotic HeLa cells. Reactivity of all three sera was abrogated by treatment with protease, but not RNase, indicating that the MCAs are protein in nature and do not contain RNA epitopes. The three anti-MCA antibodies seem to react to three different antigens because they gave different patterns of staining of chromosome arms, reacted with chromosomes in different stages of mitosis, and displayed different sensitivities to treatment with DNase 1, salt, and phosphatases. Phosphatase treatment suggests that MCA1 and MCA2 contain serine/threonine phosphoepitope(s) and MCA3 tyrosine phosphoepitope(s). Loss of MCA2 reactivity to DNase 1 treatment and its retention after salt extraction suggests that it is a chromosomal scaffold protein. Sensitivity of all three MCAs to acid suggests that they are histone-like or histone-associated proteins. CONCLUSIONS: We report the identification of three novel MCA-reactive sera. Patient diagnoses included discoid lupus erythematosus, chronic lymphocytic leukemia, Sjögren's syndrome, and polymyalgia rheumatica. The reactivity of anti-MCA antibodies with phosphoepitopes is likely to explain restriction of immunofluorescence staining to chromosome arms during mitosis. Microinjection of MCA1-reactive antibodies led to metaphase arrest, without any change in morphology of the mitotic spindle or metaphase chromosomes suggesting that MCA1 may have a role in sister chromatid separation.

[Study of chromosome pellicle by indirect immunoflourescence method and antigen analysis in Vicia faba].

The autoimmune antiserum specific to pellicle of human metaphasic chromosomes from a lupus patient was used to stain metaphasic chromosome Vicia faba by means of indirect immunoflourescence method. It was found that the pellicles of vicia metaphasic chromosomes was positively stained. The antigen of Vicia faba recognized by the antiserum was also examined by PAGE of total cell lysate and western blotting.

Altered patterns of DNA methylation on chromosomes from leukemia cell lines: identification of 5-methylcytosines by indirect immunodetection.

An immunodetection technique has been developed to map with high resolution the methylated sites of human chromosomes. We have used this method to define the methylated areas of chromosomes from normal donors and from leukemia cell lines. The chromosomes were exposed for a short time to UV light to induce mild denaturation. The methylated sites were detected in situ by using monoclonal antibodies against 5-methylcytosine (prepared in mouse), and fluorescein-conjugated antimouse immunoglobulins. The chromosomes from normal cells exhibited a fluorescent pattern with RCT banding, although some differences from previously reported patterns could be detected. With this method we have been able to show the presence of two types of R-bands: High fluorescence R-band (HFR) and low fluorescence R-band (LFR). Chromosomes from leukemia cell lines exhibited low global staining with disrupted RCT banding of the chromosomes. The decreased level of the methylation status of the chromosomes from leukemia cells was confirmed by detection of 5-methylcytosines on total immobilized DNA. Thus, we have shown that this method can be used to determine the methylated status of chromosomes and, in turn, to map not only the structural (banding) but also the functional (methylation status) properties of the different chromosome domains in normal and pathologic human cells.

Problems in preparation of chromosomes for scanning electron microscopy to reveal morphology and to permit immunocytochemistry of sensitive antigens.

Although much information about chromosome structure and behaviour has been obtained using light microscopy, greater resolution is needed for a thorough understanding of chromosome organisation. Scanning electron microscopy (SEM) can provide valuable data about these three-dimensional organelles. The introduction of methods using osmium impregnation of methanol-acetic acid-fixed chromosome spreads revolutionised matters, producing life-like images of chromosomes. Nevertheless, it became clear that osmium impregnation introduced various artefacts, although the resulting images were still useful. Methanol-acetic acid-fixed chromosomes are, in fact, flattened on the glass substratum, and the 3-dimensional appearance obtained after osmium impregnation is the result of swelling during this process. At the same time, the fibrous substructure of the chromosomes becomes much coarser. More recently a number of alternative methods have become available for studying chromosomes by SEM. Isolated chromosomes, that have not been allowed to dry during preparation, retain a 3-dimensional appearance without osmium impregnation, and the same is true of methanol-acetic acid-fixed chromosomes that have been treated with 45% acetic acid and processed without drying; however, these methods do not permit the routine production of intact metaphase spreads. Use of cytocentrifuge preparations obviates the use of acetic acid fixation and osmium impregnation, produces intact metaphase spreads, and permits the immunocytochemical detection of antigens that are easily destroyed by routine fixation procedures.

[The study of metaphasic chromosome pellicle].

Among 12 antichromosome antisera from scleroderma patients, four were found to be the antisera against the pellicle of metaphase chromosomes. Western blotting with these sera were achieved on the protein bands resolved by SDS-PAGE of the whole cell lysate and nuclear lysate of the ascites cells. The result showed 11 bands of the nuclear lysate reacted with antisera. Moreover, additional 8 were obtained in the whole cell lysate.