De novo mutations (DNMs) are important players in heritable diseases and evolution. Of particular interest are highly recurrent DNMs associated with congenital disorders that have been described as selfish mutations expanding in the male germline, thus becoming more frequent with age. Here, we have adapted duplex sequencing (DS), an ultradeep sequencing method that renders sequence information on both DNA strands; thus, one mutation can be reliably called in millions of sequenced bases. With DS, we examined ∼4.5 kb of the FGFR3 coding region in sperm DNA from older and younger donors. We identified sites with variant allele frequencies (VAFs) of 10−4 to 10−5, with an overall mutation frequency of the region of ∼6 × 10−7. Some of the substitutions are recurrent and are found at a higher VAF in older donors than in younger ones or are found exclusively in older donors. Also, older donors harbor more mutations associated with congenital disorders. Other mutations are present in both age groups, suggesting that these might result from a different mechanism (e.g., postzygotic mosaicism). We also observe that independent of age, the frequency and deleteriousness of the mutational spectra are more similar to COSMIC than to gnomAD variants. Our approach is an important strategy to identify mutations that could be associated with a gain of function of the receptor tyrosine kinase activity, with unexplored consequences in a society with delayed fatherhood.
The spectacled owl (Pulsatrix perspicillata), a species found in the Neotropical region, has 76 chromosomes, with a high number of biarmed chromosomes. In order to define homologies between Gallus gallus and Pulsatrixperspicillata (Strigiformes, Strigidae), we used chromosome painting with chicken DNA probes of chromosomes 1–10 and Z and telomeric sequences. This approach allowed a comparison between Pulsatrixperspicillata and other species of Strigidae already analyzed by chromosome painting (Strix nebulosa and Bubo bubo, both with 2n = 80). The results show that centric fusions and fissions have occurred in different chromosomal pairs and are responsible for the karyotypic variation observed in this group. No interstitial telomeric sequences were found. Although the largest pair of chromosomes in P. perspicillata and Bubo bubo are submetacentric, they are homologous to different chicken chromosomes: GGA1/GGA2 in P. perspicillata and GGA2/GGA4 in B. bubo.
De novo mutations (DNMs) are an important player in heritable diseases and evolution, yet little is known about the different mutagenic processes in our germline given the difficulty to reliably identify ultra-low frequency variants. Of particular interest are highly recurrent DNMs associated with congenital disorders that have been described as selfish mutations expanding in the male germline, thus becoming more frequent with age. Here, we have adapted duplex sequencing (DS), an ultra-deep sequencing method that renders sequence information on both DNA strands; thus, one mutation can be reliably called in millions of sequenced bases. With DS, we examined ~4.5 kb of the FGFR3 coding region in sperm DNA from older and younger donors. We identified highly mutable sites with mutation frequencies 4-5 orders of magnitude higher than the genome average. Multiple mutations were found at a higher frequency, or exclusively, in older donors, suggesting that these mutations are testis exclusive mosaics expanding in the male germline with age. Also, older donors harbored more mutations associated with congenital disorders. Some mutations were found in both age groups with no significant difference, suggesting that these might result from a different mechanism (e.g., post-zygotic mosaicism). We also observed that independently of age, the frequency and deleteriousness of the mutations in sperm were elevated compared to reports in the population. Our approach is an important strategy to identify mutations that could be associated with aberrant receptor tyrosine kinase activity, with unexplored consequences in a society with delayed fatherhood.
Accumulation of Aβ in the brain is one of the hallmarks of Alzheimer’s disease (AD). In the adult Drosophila brain, human Aβ over-expression is toxic and leads to deterioration of climbing ability and shortened lifespan. However, it remains unknown if Aβ is inherently toxic or if it triggers toxic downstream pathways that lead to neurodegeneration. Here, we describe a novel, and previously unidentified, protective role of intracellular laminin chain accumulation. Despite high Aβ levels, over-expression of the extracellular matrix protein subunit Laminin B1 (LanB1) resulted in a robust rescue of toxicity, highlighting a potential protective mechanism of resistance to Aβ. Over-expression of other Laminin subunits and a Collagen IV subunit also significantly rescued Aβ toxicity, while combining LanB1 with these subunits led to an even larger rescue. Imaging revealed that LanB1 was retained in the ER but had no effect on the secretion of Aβ into the extracellular milieu. LanB1 rescued toxicity independently of the IRE1α/XBP1-mediated branch of the ER stress response. Interestingly, over-expression of ER-targeted GFP also rescued Aβ toxicity, indicating a potentially broader benefit of ER protein retention. Finally, in proof-of-principle lentiviral transduction experiments using murine organotypic hippocampal slice cultures, over-expression of mouse Lamb1 resulted in ER-retention in transduced cells, highlighting a conserved mechanism. Typically, retention of proteins in the ER is detrimental to cellular health, but in the context of neuronal Aβ toxicity it may prove to be beneficial and a new therapeutic avenue for AD.
Delayed fatherhood results in a higher risk to inherit a new germline mutation that might result in a congenital disorder in the offspring. In particular, some FGFR3 mutations increase in frequency with age, but there are still a large number of uncharacterized FGFR3 mutations that could be expanding in the male germline with potentially early or late-onset effects in the offspring. Here, we investigated the mutation frequency in the DNA of human testis and sperm and the activation state of the expressed mutant protein of eight different FGFR3 variants categorized by ClinVar as deleterious, benign, or not reported. Overall, the ligand-independent activation of the mutant protein resulted in a increased number of mutant sperm; although, strong activating mutations did not necessarily result in the highest frequencies. Moreover, only two mutants c.952G>A and c.1620C>A showed an increase with the donor's age; the latter also forming larger clonal expansions in the testis. We also showed that the prediction of deleteriousness of a mutation is not always accurate, and similar in silico scores can reflect either a gain-of-function or loss-of-function. Our approach led to the discovery of two novel variants c.1261G>A and c.952G>A to have promiscuous FGFR3 activation and increased mutation frequencies in the male germline. The large fraction of donors with mutations suggests a high de novo rate potentially explained by a selective advantage before the maturation of the male germline. This sequence-function study provides important data for the evaluation and interpretation of variants with relevant clinical implications
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