Recombination promotes retrovirus evolution. It involves transferring a growing DNA primer from one genomic RNA template in the virus to the other. Strand transfer results in vitro suggested that pausing of the reverse transcriptase during synthesis allows enhanced RNase H cleavage of the initial, or donor, RNA template that facilitates primer interaction with the acceptor template. Hairpins are common structures in retrovirus RNAs that induce pausing. Analyzing primer transfers in hairpins by base substitution markers showed transfer sites well beyond the site of pausing. We developed methods to distinguish the initial site of primer-acceptor template interaction from the site of primer terminus transfer. The strand transfer mechanism was confirmed to involve two steps. In the first, the acceptor template invades the primer-donor complex. However, the primer terminus continues elongation on the donor RNA. The interacting primer and acceptor strands then propagate by branch migration to catch the advancing primer terminus. Some distance downstream of the invasion site the primer terminus transfers, marking the genetic shift from donor to acceptor. Nucleocapsid protein (NC) is known to influence primer elongation and strand exchange. The presence of NC increased the efficiency of transfers but did not appear to alter the fundamental transfer mechanism.
Aminoacyl-tRNA synthetases (ARSs) are ubiquitously expressed enzymes responsible for ligating amino acids to cognate tRNA molecules. Mutations in four genes encoding an ARS have been implicated in inherited peripheral neuropathy with an axonal pathology, suggesting that all ARS genes are relevant candidates for disease in patients with related phenotypes. Here, we present results from a mutation screen of the histidyl-tRNA synthetase (HARS) gene in a large cohort of patients with peripheral neuropathy. These efforts revealed a rare missense variant (p.Arg137Gln) that resides at a highly conserved amino acid, represents a loss-of-function allele when evaluated in yeast complementation assays, and is toxic to neurons when expressed in a worm model. In addition to the patient with peripheral neuropathy, p.Arg137Gln HARS was detected in three individuals by genome-wide exome sequencing. These findings suggest that HARS is the fifth ARS locus associated with axonal peripheral neuropathy. Implications for identifying ARS alleles in human populations and assessing them for a role in neurodegenerative phenotypes are discussed.
Template switching during reverse transcription promotes recombination in retroviruses. Efficient switches have been measured in vitro on hairpin-containing RNA templates by a two-step mechanism. Pausing of the reverse transcriptase (RT) at the hairpin base allowed enhanced cleavage of the initial donor RNA template, exposing regions of the cDNA and allowing the acceptor to base pair with the cDNA. This defines the first or docking step. The primer continued synthesis on the donor, transferring or locking in a second step. Here we determine the enzyme-dependent factors that influence template switching by comparing the RTs from human immunodeficiency virus, type 1 (HIV-1), and equine infectious anemia virus (EIAV). HIV-1 RT promoted transfers with higher efficiency than EIAV RT. We found that both RTs paused strongly at the base of the hairpin. While stalled, HIV-1 RT made closely spaced cuts, whereas EIAV RT made only a single cut. Docking occurred efficiently at the multiply cut but not at the singly cut site. HIV-1 nucleocapsid (NC) protein stimulated strand transfers. It improved RNase H activity of both RTs. It allowed the EIAV RT to make a distribution of cuts, greatly stimulating docking at the base of the hairpin. Most likely, it also promoted strand exchange, allowing transfers to be initiated from sites throughout the hairpin. Minor pause sites beyond the base of the hairpin correlated with the locking sites. The strand exchange properties of NC likely promote this step. We present a model that explains the roles of RNase H specificity, template structure, and properties of NC in the two-step transfer reaction.
Background:The COVID-19 pandemic mandated rapid transition from face-to-face encounters to teleneurology visits. While teleneurology is regularly used in acute stroke care, its application in other branches of neurology was limited. Here we review how the recent pandemic has created a paradigm shift in caring for patients with chronic neurological disorders and how academic institutions have responded to the present need. Method: Literature review was performed to examine the recent changes in health policies. Number of outpatient visits and televisits in the
Adaptor proteins (AP 1–5) are heterotetrameric complexes that facilitate specialized cargo sorting in vesicular-mediated trafficking. Mutations in AP5Z1, encoding a subunit of the AP-5 complex, have been reported to cause hereditary spastic paraplegia (HSP), although their impact at the cellular level has not been assessed. Here we characterize three independent fibroblast lines derived from skin biopsies of patients harbouring nonsense mutations in AP5Z1 and presenting with spastic paraplegia accompanied by neuropathy, parkinsonism and/or cognitive impairment. In all three patient-derived lines, we show that there is complete loss of AP-5 ζ protein and a reduction in the associated AP-5 µ5 protein. Using ultrastructural analysis, we show that these patient-derived lines consistently exhibit abundant multilamellar structures that are positive for markers of endolysosomes and are filled with aberrant storage material organized as exaggerated multilamellar whorls, striated belts and ‘fingerprint bodies’. This phenotype can be replicated in a HeLa cell culture model by siRNA knockdown of AP-5 ζ. The cellular phenotype bears striking resemblance to features described in a number of lysosomal storage diseases (LSDs). Collectively, these findings reveal an emerging picture of the role of AP-5 in endosomal and lysosomal homeostasis, illuminates a potential pathomechanism that is relevant to the role of AP-5 in neurons and expands the understanding of recessive HSPs. Moreover, the resulting accumulation of storage material in endolysosomes leads us to propose that AP-5 deficiency represents a new type of LSDs.
Objective:Biallelic mutations in the AP5Z1 gene encoding the AP-5 ζ subunit have been described in a small number of patients with hereditary spastic paraplegia (HSP) (SPG48); we sought to define genotype–phenotype correlations in patients with homozygous or compound heterozygous sequence variants predicted to be deleterious.Methods:We performed clinical, radiologic, and pathologic studies in 6 patients with biallelic mutations in AP5Z1.Results:In 4 of the 6 patients, there was complete loss of AP-5 ζ protein. Clinical features encompassed not only prominent spastic paraparesis but also sensory and motor neuropathy, ataxia, dystonia, myoclonus, and parkinsonism. Skin fibroblasts from affected patients tested positive for periodic acid Schiff and autofluorescent storage material, while electron microscopic analysis demonstrated lamellar storage material consistent with abnormal storage of lysosomal material.Conclusions:Our findings expand the spectrum of AP5Z1-associated neurodegenerative disorders and point to clinical and pathophysiologic overlap between autosomal recessive forms of HSP and lysosomal storage disorders.
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