After double-strand break induction, formation of γ-H2AX foci due to phosphorylation at Ser-139 of histone H2AX represents an early event of the DNA damage response (DDR). γ-H2AX foci are then rapidly dephosphorylated as signal for the subsequent recruitment of effector proteins. The induction and disappearance of the foci can be, therefore, used to monitor the functioning of the DDR machinery in a cell population exposed to genotoxic stress. Here, we investigated the time-course of γ-H2AX in unstimulated or cultured peripheral lymphocytes in vitro treated with UVB, bleomycin and mitomycin C (MMC). Once the mutagen exposure was performed, cells were harvested at different interval times from 0.5 to 5h. The results show that (i) in 20-h stimulated peripheral lymphocytes, UVB irradiation caused extensive and dose-dependent increases in nuclear phosphorylation, and disappearance of γ-H2AX foci progressed, proportionally to the UV fluence, with increasing the harvesting time; (ii) UVB-exposed G0 cells cultured for 20-h post-irradiation displayed low amounts of DNA phosphorylation, depicting a time-course in which the maximum effect was reached at 0.5h and dephosphorylation started after 1h; (iii) treatment of unstimulated lymphocytes with bleomycin sulphate induced an increase in nuclear phosphorylation of several folds higher than that of untreated cells, depicting kinetics comparable to those observed for UVB-exposed G1 cells; (iv) in stimulated cells, MMC caused a severe and dose-dependent high degree of H2AX phosphorylation together with a very slower kinetic of dephosphorylation with respect to the other experimental treatments. This study confirms the feasibility of the γ-H2AX focus assay as a genotoxic end-point and supports the view that the proposed type of analysis should be introduced in biomonitoring studies of human populations. This could also represent a feasible and useful tool in the screening and diagnosis of precancerous states or very early stages of other diseases.
In humans, the most common genomic disorder is the hemizygous deletion of the chromosome 22q11.2 region, that results in the "22q11.2 deletion syndrome" (22q11.2DS). A peculiarity of 22q11.2DS is its great phenotypic variability that makes this pathology a classic example of a syndrome with variable expressivity and incomplete penetrance. The reasons for this variability have not been elucidated yet, and the molecular substrates underlying the different clinical features of 22q11.2DS are still debated. A cohort of 21 patients has been analyzed by array CGH in order to detect some of the genetic differences that may influence this variability. Two aspects have been investigated: (1) the precise localization of the deletion breakpoints within the low copy repeats (LCRs), (2) the additional Copy Number Variations (CNVs) elsewhere in the genome, by analyzing their gene content. Both protein-coding genes and miRNAs were considered, in order to discover possible epistatic interactions between genes of the 22q11.2 region and the rest of the genome. Eighteen out of twenty-one patients had a deletion of ∼3 Mb mediated by LCR22-A and D, whereas 3/21 had a smaller deletion. The breakpoints within the LCR22-A and D do not have a major role in the phenotypic variability since they are rather clustered and the small differences concern genes that are not directly related to clinical signs of 22q11.2DS. A detailed analysis of the gene content of 22q11.2 deleted region indicates that this syndrome could be a bioenergetic disorder or consequence of an altered post-transcriptional gene regulation, due to the presence of DGCR8, a major player of the microRNA (miRNA) biogenesis. Only four genes with mitochondrial function are harbored in the additional CNVs, whereas 11 miRNA, all related to biological pathways present in the 22q11.2DS, have been detected in 19/21 patients. CNVs and miRNAs are new entities that have changed the order of complexity at the level of gene expression and regulation, thus CNV-miRNAs (miRNA harbored in the CNVs) are potential functional variants that should be considered high priority candidate Bertini et al. miRNA-CNVs in 22q11.2 Deletion Syndrome variants in genotype-phenotype association studies. Deletion of DGCR8, the main actor in miRNA biogenesis, amplifies this variability. To our knowledge, this is the first report that focus on the miRNA-CNVs in 22q11.2DS, with the aim of trying to better understand their role in the variable expressivity and incomplete penetrance.
PFAPA is an autoinflammatory syndrome characterized by periodic fever, aphthous stomatitis, sterile pharingitis, and adenitis, with an onset usually before the age of five. While the condition is most commonly sporadic, a few cases are familial and are usually compatible with an autosomal dominant (AD) transmission pattern, with reduced penetrance in some pedigrees. We performed exome analysis in a family where PFAPA was present in three relatives in two generations showing apparent AD segregation, identifying several rare and/or novel heterozygous variants in genes involved in the autoinflammatory pathway. Following segregation analysis of candidate variants, only one, c. 2770T>C p.(S924P) in the ALPK1 gene, was found to be consistently present in affected family members. ALPK1 is broadly expressed in different tissues and its protein is the intracellular kinase activated by the bacterial ADP-heptose bisphosphate that phosphorylates and activates TRAF-Interacting protein with Forkhead-Associated domain (TIFA) and triggers the immediate response to Gramnegative bacterial invasion. Sequencing analysis of 13 additional sporadic cases and 10 familial PFAPA cases identified two additional heterozygous missense variants c.1024G>C p.(D342H) and c.710C>T p.(T237M) in two sporadic patients, suggesting that rare variants in ALPK1 may represent a predisposing factor for recurrent periodic fever in a pediatric population.
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