HBD Gene Research Articles

Butyrate as a growth factor of Clostridium acetobutylicum

The butyrate biosynthetic pathway not only contributes to electron management and energy generation in butyrate forming bacteria, but also confers evolutionary advantages to the host by inhibiting the growth of surrounding butyrate-sensitive microbes. While high butyrate levels induce toxic stress, effects of non-toxic levels on cell growth, health, metabolism, and sporulation remain unclear. Here, we show that butyrate stimulates cellular processes of Clostridium acetobutylicum, a model butyrate forming Firmicute. First, we deleted the 3-hydroxybutyryl-CoA dehydrogenase gene (hbd) from the C. acetobutylicum chromosome to eliminate the butyrate synthetic pathway and thus butyrate formation. A xylose inducible Cas9 cassette was chromosomally integrated and utilized for the one-step markerless gene deletions. Non-toxic butyrate levels significantly affected growth, health, and sporulation of C. acetobutylicum. Upon deleting spo0A, the gene of the master regulator of sporulation, Spo0A, and followed by butyrate addition experiments, we conclude that butyrate affects cellular metabolism through both Spo0A-dependent and independent mechanisms. We also deleted the hbd gene from the chromosome of the asporogenous C. acetobutylicum M5 strain lacking the pSOL1 plasmid to examine the potential involvement of pSOL1 genes on the observed butyrate effects. Addition of the precursor of butyrate biosynthesis crotonate to the hbd deficient M5 strain was used to probe the role of butyrate biosynthesis pathway in electron and metabolic fluxes. Finally, we found that butyrate addition can enhance the growth of the non-butyrate forming Clostridium saccharolyticum. Our data suggest that butyrate functions as a stimulator of cellular processes, like a growth factor, in C. acetobutylicum and potentially evolutionarily related Clostridium organisms.

Transcriptional regulation of the anaerobic 3-hydroxybenzoate degradation pathway in Aromatoleum sp. CIB

Phenolic compounds are commonly found in anoxic environments, where they serve as both carbon and energy sources for certain anaerobic bacteria. The anaerobic breakdown of m-cresol, catechol, and certain lignin-derived compounds yields the central intermediate 3-hydroxybenzoate/3-hydroxybenzoyl-CoA. In this study, we have characterized the transcription and regulation of the hbd genes responsible for the anaerobic degradation of 3-hydroxybenzoate in the β-proteobacterium Aromatoleum sp. CIB. The hbd cluster is organized in three catabolic operons and a regulatory hbdR gene that encodes a dimeric transcriptional regulator belonging to the TetR family. HbdR suppresses the activity of the three catabolic promoters (PhbdN, PhbdE and PhbdH) by binding to a conserved palindromic operator box (ATGAATGAN4TCATTCAT). 3-Hydroxybenzoyl-CoA, the initial intermediate of the 3-hydroxybenzoate degradation pathway, along with benzoyl-CoA, serve as effector molecules that bind to HbdR inducing the expression of the hbd genes. Moreover, the hbd genes are subject to additional regulation influenced by the presence of non-aromatic carbon sources (carbon catabolite repression), and their expression is induced in oxygen-deprived conditions by the AcpR transcriptional activator. The prevalence of the hbd cluster among members of the Aromatoleum/Thauera bacterial group, coupled with its association with mobile genetic elements, suggests acquisition through horizontal gene transfer. These findings significantly enhance our understanding of the regulatory mechanisms governing the hbd gene cluster in bacteria, paving the way for further exploration into the anaerobic utilization/valorization of phenolic compounds derived from lignin.

New genetic biomarkers from transcriptome RNA-sequencing for Mycobacterium tuberculosis complex and Mycobacterium avium complex infections by bioinformatics analysis

The study aims to accurately identify differentially expressed genes (DEGs) and biological pathways in mycobacterial infections through bioinformatics for deeper disease understanding. Differentially expressed genes (DEGs) was explored by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis. Unique DEGs were submitted on least absolute shrinkage and selection operator (LASSO) regression analysis. 1,057 DEGs from two GSE datasets were identified, which were closely connected with NTM/ latent TB infection (LTBI)/active TB disease (ATB). It was demonstrated that these DEGs are mainly associated with detoxification processes, and virus and bacterial infections. Moreover, the METTL7B gene was the most informative marker for distinguishing LTBI and ATB with an area under the curve (AUC) of 0.983 (95%CI: 0.964 to 1). The significantly upregulated HBA1/2 genes were the most informative marker for distinguishing between individuals of IGRA-HC/NTM and LTBI (P < 0.001). Moreover, the upregulated HBD gene was also differ between IGRA-HC/NTM and ATB (P < 0.001). We have identified gene signatures associated with Mycobacterium infection in whole blood, which could be significant for understanding the molecular mechanisms and diagnosis of NTM, LTBI, or ATB.

Neonatal necrotizing enterocolitis: Clostridium butyricum and Clostridium neonatale fermentation metabolism and enteropathogenicity

ABSTRACT Bacterial colonization in the gut plays a pivotal role in neonatal necrotizing enterocolitis (NEC) development, but the relationship between bacteria and NEC remains unclear. In this study, we aimed to elucidate whether bacterial butyrate end-fermentation metabolites participate in the development of NEC lesions and confirm the enteropathogenicity of Clostridium butyricum and Clostridium neonatale in NEC. First, we produced C.butyricum and C.neonatale strains impaired in butyrate production by genetically inactivating the hbd gene encoding β-hydroxybutyryl-CoA dehydrogenase that produces end-fermentation metabolites. Second, we evaluated the enteropathogenicty of the hbd-knockout strains in a gnotobiotic quail model of NEC. The analyses showed that animals harboring these strains had significantly fewer and less intense intestinal lesions than those harboring the respective wild-type strains. In the absence of specific biological markers of NEC, the data provide original and new mechanistic insights into the disease pathophysiology, a necessary step for developing potential novel therapies.

A New Mutation, Hb A2-Canakkale [δ10(A7)Ala→Val; HBD: c.32C>T], and Other Well-Known δ Variants Identified in a Selected Cohort with Low Hb A2 Levels

Hemoglobinopathies are the most common single-gene disorders, and β-thalassemia (β-thal) imposes a tremendous health burden on Turkey. Thus, premarital carrier screening is obligatory in Turkey, as it is in some other countries. As a result of this mandatory procedure, at routine clinical checkups, many individuals who had undergone premarital screening but did not have any clinical symptoms and/or hematological findings, have compulsorily been required to undergo further evaluation due to abnormal levels of hemoglobin (Hb) fractions (Hb A, Hb A2 and Hb F). Many consequences, such as mutations in unrelated gene(s) or someone’s nutritional status, have been reported to affect the Hb fractions levels. In the present study, we aimed to determine whether HBD has a molecular causative role in patients with low Hb A2 levels (below 1.8%). The study was conducted with 20 individuals with low Hb A2 levels who had applied to our outpatient clinic. All DNA samples were analyzed for the HBD gene. Nineteen of the 20 subjects were diagnosed to carry a mutation with one of four different δ-globin variants. Three of them had been described previously [Hb A2-Yialousa (HBD: c.82G>T), Hb A2-Bornova (HBD: c.350G>C) and Hb A2-Yokoshima (HBD: c.77G>A)]. The novel [δ10(A7)Ala→Val, HBD: c.32C>T] mutation was defined as a new δ variant and reported to the HbVar database as Hb A2-Canakkale. In conclusion, the molecular characterization of Hb A2 low levels has been suggested to be significant for a definite diagnosis and counseling.

In silico prediction of HBD gene variants in the Iranian population

BackgroundThe quantification of hemoglobin A2 (Hb A2; α2δ2) is used as a valuable test to differentiate α- and ß-thal carriers in clinical laboratories. Therefore, the HBD (δ-globin) gene variants could result in reduced levels of Hb A2 and have implications for thalassemia screening programs. The aim of the present study was to predict the consequences of HBD gene variants identified in the Iranome project.ResultsThe highest number of variants was in the Persian Gulf Islanders. The variants of p.Gln132Glu (HBD: c.394C>G), p.Gly17Arg (HBD: c.49G>C), p.Thr5Ile (HBD: c.14C>T), and p.Ala28Ser (HBD: c.82G>T) presented damage results in three or more prediction tools. In addition, it seems that the p.Gly30= (HBD: c.90C>T) decreases the use of authentic splice and, instead, creates a new donor splice site (DSS) or leads to the use of a cryptic DSS.ConclusionsMost of these variants have been associated with a decrease in Hb A2 levels. Due to the high mutational diversity in the HBB gene in the Iranian population and the use of Hb A2 quantification to differentiate α- and ß-thal carriers among Iranian clinical laboratories, some attention should be taken to a possible co-inheritance of HBD gene variants to avoid the misdiagnosis of ß-thal carriers.

δ-Globin Chain Variants Associated with Decreased Hb A2 Levels: A National Reference Laboratory Experience

High prevalence of hemoglobin (Hb) disorders mandates national programs for screening and genetic counseling in many countries. Increased Hb A2 levels are commonly associated with β-thalassemias, however, various disorders including alteration of δ chains may result in decreased production of Hb A2, thus hindering the diagnosis of β-thalassemias. The reported data reflect the experience of a large reference laboratory in the United States. In the current study, we have attempted to assess the prevalence and also tried to characterize the identified mutations in the HBD gene resulting in decreased Hb A2 levels. In our cohort, 1.6% of 6486 patients were found to have Hb A2 values of <1.9%. Bidirectional sequencing of the HBD gene demonstrated mutations in 20 cases (19.0% of the individuals with decreased Hb A2). In addition to the previously reported variants, one novel mutation (Hb A2-Utah or HBD: c.46T>C).

First report of the spectrum of δ-globin gene mutations among women of reproductive age in Fujian area-Discrimination of δ-thalassemia, α-thalassemia, and Iron Deficiency Anemia.

BackgroundLow HbA2 level is an underlying of δ‐thalassemia, α‐thalassemia, and IDA. Interactions of these disorders can generate a wide spectrum of phenotype, which will pose diagnostic conundrum for clinical assessment, carrier screening, and genetic counseling.MethodsSubjects with HbA2 levels below 2.0% with normal or reduced hematological parameters were recruited for further investigation. δ‐globin gene mutations were identified by DNA sequencing of the HBD gene. Serum ferritin (SF) concentration was determined by the chemiluminescent microparticle immunoassay. The three common deletional α‐thalassemia (‐‐SEA/αα, ‐α3.7/αα, and ‐α4.2/αα) were detected using Gap‐PCR, detection of the point mutations in the three nondeletional α‐thalassemia (αCSα/αα,αQSα/αα,αWSα/αα), and the 17 common β‐thalassemia was performed using reverse dot blot hybridization (RDB).ResultsWe had characterized the δ‐globin gene mutations in 20 cases, revealing a frequency of 0.4% in the women of reproductive age (20/4 792). Two previously known mutations:‐77 T > C and −30 T > C and 3 novel δ‐globin gene defects: −44G > A,CD87C > T, and CD134T > A were found. In the selected cases, we also found 85 cases confirmed with (51.2%,85/166) IDA and 39 cases (23.5%,39/166) with common α‐thalassemia. Subjects with δ‐thalassemia had statistically higher levels of Hb, MCV, and MCH compared with other two groups, whereas statistically lower levels of RDW were seen in δ‐thalassemia group. What's more, statistically higher levels of SF were seen in δ‐thalassemia group, compared with IDA groups.ConclusionWe reported the spectrum of δ‐thalassemia mutations for the first time with the frequency of 0.4% among women of reproductive age in Fujian area and found that −77T > C mutation was the most common mutation, followed by −30T > C mutation. What's more, 3 novel δ‐globin gene defects: −44G > A,CD87C > T and CD134T > A were found. A thorough analysis of the hematological, electrophoretic characterization, and the level of SF was needed to suspect and further investigate the existence of IDA, α‐thalassemia, and δ‐thalassemia.

Analysis of haematological phenotype and mutation spectrum of δ-globin gene from Guangdong area in Chinese Han prenatal population

Objective: To analyze the genotype-phenotype correlations among southern Chinese Han prenatal population in Guangdong area with δ-globin gene mutation, so as to enrich the delta-thalassemia gene mutations data. Methods: A total of 33 cases were selected in 7 580 patients during prenatal thalassemia trait screening, from January 2012 to May 2015(including 10 males and 23 females, aged 22-48 years old). Complete blood cell count was performed on a XE 4000i automatic hemocyte analyzer. Hb, HbF and HbA2 were tested by high performance liquid chromatography (HPLC). Genomic DNA was extracted from whole blood samples using a whole blood genomic DNA extraction kit. Polymerase chain reaction (PCR) was used to amplify three different fragments corresponding to the exons and the regulatory sequences using three different couples of primers for the δ-globin gene. Results: Twenty one of the 33 samples were positive for the δ-globin gene defects. Four previously known mutations were detected: including 12 cases for -77(T>C)[HBD c. -127 (T>C)](57.14%), 4 cases for -30 (T>C)[HBD c. -80 (T>C)](19.05%), 1 case for codon 10 (-G) (HBD c. 31delG)(4.76%), and 1 case for HBD c. 244 C>T(4.76%). Three new δ-globin gene defects which had not yet been reported in database were detected, including 1 case for HBD c. 22_24delGAG(4.76%), 1 case for HBD c. 347 C>T(4.76%), and one case for HBD c. 349 C>G(4.76%). Conclusions: -77 (T>C) is the most common mutation in Chinese southern prenatal population. Three new HBD gene mutations are referred in this report, which provide the valuable information for genetic counseling and prenatal diagnosis in Guangdong area.

Comparative genomics of canine hemoglobin genes reveals primacy of beta subunit delta in adult carnivores

BackgroundThe main function of hemoglobin (Hb) is to transport oxygen in the circulation. It is among the most highly studied proteins due to its roles in physiology and disease, and most of our understanding derives from comparative research. There is great diversity in Hb gene evolution in placental mammals, mostly in the repertoire and regulation of the β-globin subunits. Dogs are an ideal model in which to study Hb genes because: 1) they are members of Laurasiatheria, our closest relatives outside of Euarchontoglires (including primates, rodents and rabbits), 2) dog breeds are isolated populations with their own Hb-associated genetics and diseases, and 3) their high level of health care allows for development of biomedical investigation and translation.ResultsWe established that dogs have a complement of five α and five β-globin genes, all of which can be detected as spliced mRNA in adults. Strikingly, HBD, the allegedly-unnecessary adult β-globin protein in humans, is the primary adult β-globin in dogs and other carnivores; moreover, dogs have two active copies of the HBD gene. In contrast, the dominant adult β-globin of humans, HBB, has high sequence divergence and is expressed at markedly lower levels in dogs. We also showed that canine HBD and HBB genes are complex chimeras that resulted from multiple gene conversion events between them. Lastly, we showed that the strongest signal of evolutionary selection in a high-altitude breed, the Bernese Mountain Dog, lies in a haplotype block that spans the β-globin locus.ConclusionsWe report the first molecular genetic characterization of Hb genes in dogs. We found important distinctions between adult β-globin expression in carnivores compared to other members of Laurasiatheria. Our findings are also likely to raise new questions about the significance of human HBD. The comparative genomics of dog hemoglobin genes sets the stage for diverse research and translation.

576. DNA Ends Matter: The Impact of Using CRISPR/Cas9 Variants on DNA Repair Pathway Choices and Editing Profiles at the HBB Locus

Sickle Cell Anemia is an inherited recessive disorder caused by a single point mutation in the human beta globin (HBB) gene resulting in an abnormal type of hemoglobin. Here we report targeting the HBB locus using CRISPR/Cas9 technology for correction of Sickle Cell Disease, which affects nearly 1 million people worldwide. Cas9 and its variants can be used to introduce a variety of breaks including blunt double stranded break (DSB), single nicks, or dual nicks leaving either a 3’ or 5’ overhang. The type of cut and donor used can play a role in triggering different repair pathways, thus, resulting in various editing profiles. Using a single strand oligonucleotide (ssODN), we characterize different DNA repair outcomes including indel mutations resulting from Non Homologous End-Joining (NHEJ), Homology-Dependent Repair (HDR) using the donor as a template, and, finally, Gene Conversion (a kind of HDR event) using the closely related HBD gene as an endogenous template. Repair using homologous sequences from the HBD gene results in partial gene-conversion yielding a chimeric HBB-HBD gene that corrects the sickle cell point mutation. We observed that the Cas9 nickase/gRNA pair leaving a 5’ overhang displayed a significantly higher frequency of gene conversion and gene correction than other Cas9-induced DNA end structures. We also provide evidence that overexpression or down-regulation of critical factors in the repair pathways influence the repair pathway balance.In summary, we demonstrate that the frequency of various repair outcomes under different conditions offers insight into the mechanisms of repair of Cas9-induced DNA cleavage. The data support a therapeutic approach in which correction of the sickle-cell mutation is efficiently mediated through HDR using a donor template or by gene-conversion using the endogenous HBD gene.

732. CRISPR/Cas9 Mediates Highly Efficient Gene Editing in Long-Term Engrafting Human Hematopoietic Stem/Progenitor Cells

Transplantation of genetically corrected autologous hematopoietic stem/progenitor cells (HSPCs) is an effective treatment for patients with inherited hematologic disease. Genome editing with CRISPR/Cas9 ribonucleoprotein (RNP) precisely modifies gene targets in human cells, including HSPCs. In order to translate this technology to a clinical setting, gene editing must be reproducible and efficient across multiple patient donors without compromising HSPC viability, multipotency, and long-term engraftment capability. To determine the reproducibility of Cas9 RNP mediated gene editing in HSPCs, human CD34+ cells obtained from 15 different patient donors (cord blood n=12, mobilized peripheral blood [mPB] n=3) were electroporated with S. pyogenes Cas9 RNP targeting the β-hemoglobin (HBB) or AAVS1 genetic locus. DNA sequence analysis of 15 separate experiments demonstrated that Cas9 supported up to 72% gene editing in cord blood CD34+ cells and up to 61% gene editing in adult mPB CD34+ cells (mean % editing by DNA sequencing: 57% ± 8%). Cas9 induced multiple modifications that comprise insertions and deletions at the HBB locus, and some of the lesions were repaired through an HDR repair mechanism that used the homologous sequences from the endogenous HBD gene as a template (Gene Conversion). Gene edited CD34+ cells retained viability and hematopoietic colony forming cell (CFC) activity ex vivo, with no significant differences between treatment groups or across donors. Indels were detected in one (BFU-E/GEMM: 50%-75%, CFU-GM/M: 50-66%) or both (BFU-E/GEMM: 12-38%, CFU-GM/M: 12-50%) alleles, at high frequencies in clonal erythroid and myeloid colonies (range of 63-100% of individual colonies assayed across experiments). To evaluate engraftment potential, both Cas9 modified (unsorted) and untreated control human CD34+ cells were transplanted into immunodeficient mice. Twelve weeks after transplantation, up to 34% human CD45+ cell engraftment was detected in the peripheral blood of recipients of Cas9 RNP treated CD34+ cells. There was no significant difference in the engraftment of Cas9 RNP treated and untreated control CD34+ cells which were detected in blood, spleen, and bone marrow. Human lymphoid, myeloid, and erythroid cells were detected in blood and hematopoietic organs with no difference in lineage distribution between cohorts. Analysis of the bone marrow from both groups revealed an average of 20% human CD45+ and 13% CD34+CD45+ cell engraftment long-term. Analysis of human gDNA revealed that up to 20% gene editing in the marrow of treated mice and edited cells were also detected in the blood and spleen. In summary, these data show that Cas9 RNP gene edited primary human CD34+ HSPCs retained the ability to engraft long-term and reconstitute hematopoiesis in vivo at levels higher than reported previously. These findings also show that electroporation of HSPCs with Cas9 RNP mediated highly reproducible gene editing levels across multiple donors and did not alter hematopoietic reconstitution or differentiation properties in comparison to untreated control CD34+ cells.

Molecular Characterization of δ-Thalassemia in Iran

δ-Thalassemia (δ-thal) (OMIM #142000) resulting from mutations on the HBD gene usually has no clinical consequences. However, it may cause the misdiagnosis of β-thalassemia (β-thal) carriers by lowering the Hb A2 level to the normal range. Therefore, a study for δ-thal should be considered as a step in the detection of at-risk couple in our region. The aim of the present study was to characterize the mutations of the HBD gene in β-thal carriers with normal Hb A2 levels, and also in normal individuals with Hb A2 of less than 2.0%. Four β-thal carriers with normal Hb A2 and 39 individuals with Hb A2 of less than 2.0% were enrolled. Genomic DNA was extracted by the salting out method and the HBD gene was investigated by polymerase chain reaction (PCR) and direct DNA sequencing. Hb A2-Yialousa (HBD: c.82 G > T) was the most common variant found in the HBD gene, but the following mutations were also found: Hb A2-NYU (HBD: c.39 T > A), Hb A2-Coburg (HBD: c.350 G > A), Hb A2-Etolia (HBD: c.257 T > C), Hb A2-Fitzroy (HBD: c.428 C > A) and the δ-IVS-I-5 (G > T) (HBD: c.92 + 5 G > T). One case was a compound heterozygote for δ-IVS-I-5/Hb A2-Fitzroy. The results of this single center study suggest that the mutations in the HBD gene in the Iranian population are heterogeneous and should be considered in genetic counseling of families.

560. Therapeutic Editing of the HBB Locus Using the Endogenous HBD Locus as a Donor Template

Sickle Cell Anemia is a recessive disorder caused by a single point mutation in the human beta globin (HBB) gene. Affecting nearly 1 million people worldwide, this disease is severely lacking in long-term treatment options and is a prime candidate for a gene editing therapeutic approach. Here we report the use of the CRISPR/Cas system to target the human HBB gene in the region of the sickle cell anemia-causing mutation.Utilizing two different Cas9 nickases as well as the wild type nuclease, we are able to introduce blunt double-strand breaks, single strand nicks, and dual-nicks in which the nicks are placed on opposite strands and leave either 3’ or 5’ overhangs of varying lengths. Using either single strand oligonucleotide (ssODN) or plasmid DNA donors, we characterize several different DNA repair outcomes including indel mutations resulting from non-homologous end-joining, homology-dependent repair (HDR) using the donor as a template, and finally HDR using the closely related HBD gene as an endogenous template. Repair using homologous sequences from the HBD gene results in partial gene-conversion yielding a chimeric HBB-HBD gene. The region of gene conversion includes the sequence most commonly mutated in sickle cell anemia. The frequency of this event depends on the nature of the break. The data support a therapeutic approach in which correction of the sickle-cell mutation is efficiently mediated through HDR using a donor template or by gene-conversion using the endogenous HBD gene.

Distinctive patterns of evolution of the δ-globin gene (HBD) in primates.

In most vertebrates, hemoglobin (Hb) is a heterotetramer composed of two dissimilar globin chains, which change during development according to the patterns of expression of α- and β-globin family members. In placental mammals, the β-globin cluster includes three early-expressed genes, ε(HBE)-γ(HBG)-ψβ(HBBP1), and the late expressed genes, δ (HBD) and β (HBB). While HBB encodes the major adult β-globin chain, HBD is weakly expressed or totally silent. Paradoxically, in human populations HBD shows high levels of conservation typical of genes under strong evolutionary constraints, possibly due to a regulatory role in the fetal-to-adult switch unique of Anthropoid primates. In this study, we have performed a comprehensive phylogenetic and comparative analysis of the two adult β-like globin genes in a set of diverse mammalian taxa, focusing on the evolution and functional divergence of HBD in primates. Our analysis revealed that anthropoids are an exception to a general pattern of concerted evolution in placental mammals, showing a high level of sequence conservation at HBD, less frequent and shorter gene conversion events. Moreover, this lineage is unique in the retention of a functional GATA-1 motif, known to be involved in the control of the developmental expression of the β-like globin genes. We further show that not only the mode but also the rate of evolution of the δ-globin gene in higher primates are strictly associated with the fetal/adult β-cluster developmental switch. To gain further insight into the possible functional constraints that have been shaping the evolutionary history of HBD in primates, we calculated dN/dS (ω) ratios under alternative models of gene evolution. Although our results indicate that HBD might have experienced different selective pressures throughout primate evolution, as shown by different ω values between apes and Old World Monkeys + New World Monkeys (0.06 versus 0.43, respectively), these estimates corroborated a constrained evolution for HBD in Anthropoid lineages, which is unlikely to be related to protein function. Collectively, these findings suggest that sequence change at the δ-globin gene has been under strong selective constraints over 65 Myr of primate evolution, likely due to a regulatory role in ontogenic switches of gene expression.

Repeated evolution of chimeric fusion genes in the β-globin gene family of laurasiatherian mammals.

The evolutionary fate of chimeric fusion genes may be strongly influenced by their recombinational mode of origin and the nature of functional divergence between the parental genes. In the β-globin gene family of placental mammals, the two postnatally expressed δ- and β-globin genes (HBD and HBB, respectively) have a propensity for recombinational exchange via gene conversion and unequal crossing-over. In the latter case, there are good reasons to expect differences in retention rates for the reciprocal HBB/HBD and HBD/HBB fusion genes due to thalassemia pathologies associated with the HBD/HBB “Lepore” deletion mutant in humans. Here, we report a comparative genomic analysis of the mammalian β-globin gene cluster, which revealed that chimeric HBB/HBD fusion genes originated independently in four separate lineages of laurasiatherian mammals: Eulipotyphlans (shrews, moles, and hedgehogs), carnivores, microchiropteran bats, and cetaceans. In cases where an independently derived “anti-Lepore” duplication mutant has become fixed, the parental HBD and/or HBB genes have typically been inactivated or deleted, so that the newly created HBB/HBD fusion gene is primarily responsible for synthesizing the β-type subunits of adult and fetal hemoglobin (Hb). Contrary to conventional wisdom that the HBD gene is a vestigial relict that is typically inactivated or expressed at negligible levels, we show that HBD-like genes often encode a substantial fraction (20–100%) of β-chain Hbs in laurasiatherian taxa. Our results indicate that the ascendancy or resuscitation of genes with HBD-like coding sequence requires the secondary acquisition of HBB-like promoter sequence via unequal crossing-over or interparalog gene conversion.

Green tea extract and its major constituent, epigallocatechin‐3‐gallate, induce epithelial beta‐defensin secretion and prevent beta‐defensin degradation by Porphyromonas gingivalis

Antimicrobial peptides, such as beta-defensins, secreted by gingival epithelial cells, are thought to play a major role in preventing periodontal diseases. In the present study, we investigated the ability of green tea polyphenols to induce human beta-defensin (hBD) secretion in gingival epithelial cells and to protect hBDs from proteolytic degradation by Porphyromonas gingivalis. Gingival epithelial cells were treated with various amounts (25-200μg/mL) of green tea extract or epigallocatechin-3-gallate (EGCG). The secretion of hBD1 and hBD2 was measured using ELISAs, and gene expression was quantified by real-time PCR. The treatments were also carried out in the presence of specific kinase inhibitors to identify the signaling pathways involved in hBD secretion. The ability of green tea extract and EGCG to prevent hBD degradation by proteases of P.gingivalis present in a bacterial culture supernatant was evaluated by ELISA. The secretion of hBD1 and hBD2 was up-regulated, in a dose-dependent manner, following the stimulation of gingival epithelial cells with a green tea extract or EGCG. Expression of the hBD gene in gingival epithelial cells treated with green tea polyphenols was also increased. EGCG-induced secretion of hBD1 and hBD2 appeared to involve extracellular signal-regulated kinase 1/2 and p38 mitogen-activated protein kinase. Lastly, green tea extract and EGCG prevented the degradation of recombinant hBD1 and hBD2 by a culture supernatant of P.gingivalis. Green tea extract and EGCG, through their ability to induce hBD secretion by epithelial cells and to protect hBDs from proteolytic degradation by P.gingivalis, have the potential to strengthen the epithelial antimicrobial barrier. Future clinical studies will indicate whether these polyphenols represent a valuable therapeutic agent for treating/preventing periodontal diseases.

First Report of Hb A2-NYU (HBD:c.39T>A) in the Hellenic Population

We report the first heterozygous case of Hb A2-NYU (HBD:c.39T>A) in the Hellenic population. The proband, an adult female from the island of Crete, Greece, was identified during routine family screening. DEAE chromatography of the index case revealed a minor hemoglobin (Hb) fraction preceding the elution of the wild-type Hb A2. DNA sequencing of the entire HBD gene coding regions indicated that the index case was heterozygous for the rare variant Hb A2-NYU. Family studies indicated that this Hb variant was inherited from the mother. This finding underlines the vast genetic heterogeneity of the HBD gene in the Hellenic population.

Reduced TLR2 gene expression is a feature of chronic rhinitic mucosa supporting the hygiene hypothesis

Objective. Pathogenic induction of the immunomodulators toll like receptors (TLRs) and beta-defensins (HBD) can steer the developing immune system toward a Th1 nonallergic pathway and might explain why farmer's children show reduced frequency of allergy. We hypothesised that chronic allergic and nonallergic rhinitis might be associated with reduced mucosal levels of TLRs and HBDs. Method. The gene expression levels of TLR2 & 4 and HBD1-4 was determined by real-time polymerase chain reaction in sections of nasal turbinate tissue from adults with persistent allergic and idiopathic rhinitis, healthy nasal mucosa and tonsil tissue. Immunohistochemistry was used to study the localisation and distribution of proteins for TLR2, HBD2, α-defensins (1-3) and neutrophil elastase Results. A significant reduction in TLR2 mRNA expression was identified in allergic mucosa compared to control mucosa, with generally reduced expression for TLR4 and HBDs. While not significant, the nonallergic group also showed reduced expression for TLRs and HBDs. With the exception of HBD4, increased gene levels were seen in tonsil tissue. HBD2 and TLR2 protein expression was localised in lining and submucosal glandular epithelium but insignificant differences were seen for HBDs, TLRs, neutrophils and α-defensin between the rhinitic and control patient groups. Conclusion. Chronic rhinitic mucosa shows reduced levels of TLR and HBD gene expression. The significant reduction in TLR2 gene expression in adult allergics support the concept that increased TLR2 is protective against the development of allergy.

Pattern of mRNA expression of β-defensins in basal cell carcinoma

BackgroundAlthough the human β-defensins hBDs today seem to have diverse functional activities in innate antimicrobial immunity, a few reports also indicated an altered expression of these antimicrobial peptides (AMPs) in tissues of cancers such as oral squamous cell carcinoma. The present work was aimed on the study of hBD gene expression in basal cell carcinoma (BCC) which is the most common cancer in humans.MethodsTwenty-two non-ulcerated BCCs (12 nodular type, 10 superficial type) have been analysed for the presence of hBD (1–3) mRNA by quantitative real-time RT-PCR. As controls, non-lesional skin specimens of BCC patients as well as samples of healthy subjects were assessed by RT-PCR.ResultshBD-1 levels in healthy controls and non-lesional skin of BCC patients were significantly (P < 0.05) higher than the levels observed in tumour tissue. Moreover, BCCs showed significantly (P < 0.05) increased mRNA expression of hBD-2 as compared to controls. There was no significant (P > 0.05) difference between lesional mRNA levels for hBD-3 and those levels observed in controls. The mRNA expression of hBDs (1–3) found in nodular and superficial BCCs did not significantly (P > 0.05) differ.ConclusionThe gene expression patterns of hBD-1 and hBD-2 are for the first time shown to be significantly altered in non-ulcerated BCCs as compared to intra-individual and inter-individual controls, respectively. The present findings may indicate that beside the antimicrobial activity of AMPs, hBDs may also play a role in the pathogenesis of BCC. However, functional and immunohistological studies investigating hBDs in patients with BCC are needed to confirm our data.