Converting human skin cells to neurons: a new tool to study and treat brain disorders?

Recent publications in Cell Stem Cell (Son et?al., 2011; Ambasudhan et?al., 2011), PNAS (Pfisterer et?al., 2011), and Nature (Caiazzo et?al., 2011; Pang et?al., 2011; Yoo et?al., 2011) report that functional neurons can be directly generated from human fibroblast cells without going through the pluripotent state.     

Converted neural cells: induced to a cure?

Many neurodegenerative disorders such as Parkinson’s disease (PD), amyotrophic lateral sclerosis (ALS) and others often occur as a result of progressive loss of structure or function of neurons. Recently, many groups were able to generate neural cells, either differentiated from induced pluripotent stem cells (iPSCs) or converted from somatic cells. Advances in converted neural cells have opened a new era to ease applications for modeling diseases and screening drugs. In addition, the converted neural cells also hold the promise for cell replacement therapy (Kikuchi et al., 2011; Krencik et al., 2011; Kriks et al., 2011; Nori et al., 2011; Rhee et al., 2011; Schwartz et al., 2012). Here we will mainly discuss most recent progress on using converted functional neural cells to treat neurological diseases and highlight potential clinical challenges and future perspectives.     

Mechanisms involved in the neurotoxic and cognitive effects of developmental methamphetamine exposure

Methamphetamine exposure in utero leads to a variety of higher‐order cognitive deficits, such as decreased attention and working, and spatial memory impairments in exposed children (Piper et al., 2011; Roussotte et al., 2011; Kiblawi et al., 2011). As with other teratogens, the timing of methamphetamine exposure greatly determines its effects on both neuroanatomical and behavioral outcomes. Methamphetamine exposure in rodents during the third trimester human equivalent period of brain development results in distinct and long‐lasting route‐based and spatial navigation deficits (Williams et al., 2003; Vorhees et al., 2005, 2008, 2009;). Here, we examine the impact of neonatal methamphetamine‐induced neurotoxicity on behavioral outcomes, neurotransmission, receptor changes, plasticity proteins, and DNA damage. Birth Defects Research (Part C) 108:131–141, 2016. © 2016 Wiley Periodicals, Inc.     

Human rhinovirus C infection is associated with asthma in children determined by xTAG respiratory viral panel FAST

<正>Dear Editor,Cumulative evidence supports the role of early-life viral infections,especially respiratory syncytial virus(RSV)and human rhinovirus(HRV),as major antecedents of childhood asthma(Lemanske,2002;Jackson et al.,2008).In this study,the x TAG respiratory viral panel FAST(RVP FAST)assay,a multiplex polymerase chain reaction(PCR)-based method(Arens et al.,2010;BaladaLlasat et al.,2011;Gharabaghi et al.,2011;Selvaraju,2012),was used to investigate the association of infec-     

Roles of Tet2 in meiosis,fertility and reproductive aging

Dear Editor, Ten-eleven translocation(Tet)enzymes play important roles in DNA demethylation involved in various biological pro-cesses including stem cell pluripotency and differentiation,and tumorigenesis(Dawlaty et al.,2013;Wu and Zhang,2017).Tet2 deficiency or mutation leads to severe hematopoietic defects or myeloid malignancies in mice(Delhommeau et al.,2009;Ko et al.,2010;Moran-Crusio et al.,2011).Restoration of TET2 blocks aberrant self-re-newal and leukemia progression in patients possessing TET2 mutations(Cimmino et al.,2017).DNA methylation-based biomarkers,or"epigenetic clocks",link developmental and maintenance processes to biological aging(Horvath and Raj,2018).Interestingly,age-associated TET2 mutations have been found to drive myeloid dysfunction,cancer and cardiovascular disease(review(Ferrone et al.,2020)).Nevertheless,there has been lack of direct evidence demonstrating that Tet2 mutations or deficiency can actually accelerate aging.     

105 Activity of DNA ligase on substrates containing non-canonical structures

The expansion of trinucleotide repeat tracts (e.g. (CAG)_n tracts) has been shown to contribute to genomic instability and has been implicated in the pathogenesis of several neurodegenerative diseases, including Huntington’s Disease and Fragile X syndrome (Kovtun et al., 2008). While the molecular mechanism of this expansion is unknown, the ability of trinucleotide repeat sequences to form non-canonical secondary structures, such as hairpins, has been implicated as a multifaceted source of error (Gacy et al., 1995). Non-canonical DNA secondary structures have been shown to impact the action of enzymes in the base excision repair (BER) pathway, by which oxidatively damaged bases are removed. More specifically, there is evidence that trinucleotide repeat-containing DNA mistakenly enters long-patch BER, which can potentially lead to the incorporation of extra nucleobases by DNA polymerase (Jarem et al., 2011). The final enzyme in the BER pathway is DNA Ligase, which catalyses the formation of a phosphodiester bond to seal a nick site (Taylor et al., 2011). When extra nucleotides have been added during an erroneous long-patch BER process, the action of DNA ligase may expand the repeat tract by incorporating these additional bases into duplex DNA. In this study, DNA constructs containing (CAG)_n hairpins at various distances from a nick site are used to investigate the ability of DNA Ligase to ligate substrates containing non-canonical secondary structure back into duplex DNA.     

iPSCs: induced back to controversy

Several recent reports (Mayshar et?al., 2010; Laurent et?al., 2011; Lister et?al., 2011; Gore et?al., 2011; Hussein et?al., 2011) uncover genetic and epigenetic alterations in induced pluripotent stem cells, stimulating debate about their future. However, will these important findings really impact what we hope to gain?     

Testing the level of ant activity associated with quorum sensing: an empirical approach leading to the establishment and test of a null-model (response to the comment of Richardson et al.)

In a paper in this journal (Nouvellet et al., 2010), we presented results from experiments on the behaviour of the Pharaoh's ant, Monomorium pharaonis, along with a substantial statistical and theoretical analysis of the results. In a minor part of our paper, we compared our results with the related work of Richardson et al. (2010a). These authors have subsequently commented on our interpretation of their work (Richardson et al., 2011). In this Letter we respond to the comments of Richardson et al. (2011), and give detailed arguments why we stand by our original conclusions.     

Moving right along: how PP1 helps clear the checkpoint

Spindle checkpoint silencing is crucial for cell-cycle progression, but mechanisms underlying this process remain mysterious. Two papers, one in this issue of Developmental Cell (Meadows et?al., 2011) and one in Current Biology (Rosenberg et?al., 2011), begin to show how phosphatase PP1-gamma connects chromosome-microtubule attachment with anaphase entry.     

A novel role for Greatwall kinase in recovery from DNA damage

Activation of the DNA damage response (DDR) is critical for genomic integrity and tumor suppression. The occurrence of DNA damage quickly evokes the DDR through ATM/ATR-dependent signal transduction, which promotes DNA repair and activates the checkpoint to halt cell cycle progression (Halazonetis et al., 2008; Motoyama and Naka, 2004; Zhou and Elledge, 2000). The "turn off" process of the DDR upon satisfaction of DNA repair, also known as "checkpoint recovery", involves deactivation of DDR elements, but the mechanism is poorly understood. Greatwall kinase (Gwl) has been identified as a key element in the G2/M transition (Archambault et al., 2007; Jackson, 2006; Zhao et al., 2008; Yu et al., 2004; Yu et al., 2006; Zhao et al., 2006) and helps maintain M phase through inhibition of PP2A/B55δ (Burgess et al., 2010; Castilho et al., 2009; Goldberg, 2010; Lorca et al., 2010; Vigneron et al., 2009), the principal phosphatase for Cdk-phosphorylated substrates. Here we show that Gwl also promotes recovery from DNA damage and is itself directly inhibited by the DNA damage response (DDR). In Xenopus egg extracts, immunodepletion of Gwl increased the DDR to damaged DNA, whereas addition of wild type, but not kinase dead Gwl, inhibited the DDR. The removal of damaged DNA from egg extracts leads to recovery from checkpoint arrest and entry into mitosis, a process impaired by Gwl depletion and enhanced by Gwl over-expression. Moreover, activation of Cdk1 after the removal of damaged DNA is regulated by Gwl. Collectively, these results defines Gwl as a new regulator of the DDR, which plays an important role in recovery from DNA     

ATM signals miRNA biogenesis through KSRP

In this issue of Molecular Cell, Zhang and colleagues (Zhang et?al., 2011) describe a critical link between the DNA damage response and the miRNA pathway, in which DNA double-strand breaks (DSBs) induce ATM-dependent KSRP phosphorylation to facilitate pri-miRNA processing.     

Centromere Epigenetics in Plants

The centromere is an essential chromosome site at which the kinetochore forms and loads proteins needed for faithful segregation during the cell cycle and meiosis(Houben et al., 1999;Cleveland et al.,2003;Ma et al.,2007;Birchler and Han,2009).Centromere specific sequences such as tandem repeats or transposable elements evolve quickly both within and between the species but have conserved kinetochore proteins(Henikoff and Furuyama,2010).The universal feature     

Immune plexins and semaphorins: old proteins,new immune functions

Plexins and semaphorins are a large family of proteins that are involved in cell movement and response. The importance of plexins and semaphorins has been emphasized by their discovery in many organ systems including the nervous (Nkyimbeng-Takwi and Chapoval, 2011; McCormick and Leipzig, 2012; Yaron and Sprinzak, 2012), epithelial (Miao et al., 1999; Fujii et al., 2002), and immune systems (Takamatsu and Kumanogoh, 2012) as well as diverse cell processes including angiogenesis (Serini et al., 2009; Sakurai et al., 2012), embryogenesis (Perala et al., 2012), and cancer (Potiron et al., 2009; Micucci et al., 2010). Plexins and semaphorins are transmembrane proteins that share a conserved extracellular semaphorin domain (Hota and Buck, 2012). The plexins and semaphorins are divided into four and eight subfamilies respectively based on their structural homology. Semaphorins are relatively small proteins containing the extracellular semaphorin domain and short intracellular tails. Plexins contain the semaphorin domain and long intracellular tails (Hota and Buck, 2012). The majority of plexin and semaphorin research has focused on the nervous system, particularly the developing nervous system, where these proteins are found to mediate many common neuronal cell processes including cell movement, cytoskeletal rearrangement, and signal transduction (Choi et al., 2008; Takamatsu et al., 2010). Their roles in the immune system are the focus of this review.     

Early human dispersals into the Iberian Peninsula: a comment on Martínez et al.(2010) and Garcia et al. (2011)

Garcia et al. (2011) recently discussed early human dispersals into the Iberian Peninsula, describing several putative lithic artifacts (Martínez et al., 2010) recovered from layer 7 of the Vallpara díssection (Madurell-Malapeira et al., 2010) in Terrassa (Vallès-Penedès Basin, Catalonia, Spain). According to the authors' opinion, such evidence (1) fills a gap in the chronology of early human occupation in Iberia, (2) indicates that these populations had primary and early access to carcasses, and (3) confirms that early human populations were equipped with advanced cultural traits enabling them to survive in unfavourable climatic conditions. We argue below that the record of human activity at Vallparadís (Martínez et al., 2010;Garcia et al., 2011) is doubtful and even that if confirmed, a chronological gap would remain (contra Garcia et al., 2011). Additional remarks on assertions by these authors on the Vallparadís geology, taphonomy and paleonvironment are also provided.