School Of Basic And Applied Sciences

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    Surfactant-assisted dispersion of carbon nanotubes: Mechanism of stabilization and biocompatibility of the surfactant
    (2013) Singh, R.P.; Jain, S.; Ramarao, P.
    Nanoparticles (NPs) are thermodynamically unstable system and tend to aggregate to reduce free energy. The aggregation property of NPs results in inhomogeneous exposure of cells to NPs resulting in variable cellular responses. Several types of surfactants are used to stabilize NP dispersions and obtain homogenous dispersions. However, the effects of these surfactants, per se, on cellular responses are not completely known. The present study investigated the application of Pluronic F68 (PF68) for obtaining stable dispersion of NPs using carbon nanotubes as model NPs. PF68-stabilized NP suspensions are stable for long durations and do not show signs of aggregation or settling during storage or after autoclaving. The polyethylene oxide blocks in PF68 provide steric hindrance between adjacent NPs leading to stable NP dispersions. Further, PF68 is biocompatible in nature and does not affect integrity of mitochondria, lysosomes, DNA, and nuclei. Also, PF68 neither induce free radical or cytokine production nor does it interfere with cellular uptake mechanisms. The results of the present study suggest that PF68-assisted dispersion of NPs produced suspensions, which are stable after autoclaving. Further, PF68 does not interfere with normal physiological functions suggesting its application in nanomedicine and nanotoxicity evaluation. ? 2013 Springer Science+Business Media Dordrecht.
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    Stage-specific functions of Semaphorin7A during adult hippocampal neurogenesis rely on distinct receptors
    (Nature Publishing Group, 2017) Jongbloets, Bart C.; Lemstra, Suzanne; Schellino, Roberta; Broekhoven, Mark H.; Parkash, Jyoti; Hellemons, Anita J.C.G.M.; Mao, Tianyi; Giocobini, Paolo; Praag, Henriette Van; Marchis, Silvia De; Ramakers, Geert M.J.; Pasterkamp, R. Jeroen; Jongbloets, B.C.; Lemstra, S.; Schellino, R.; Broekhoven, M.H.; Parkash, J.; Hellemons, A.J.C.G.M.; Mao, T.; Giacobini, P.; Van Praag, H.; De Marchis, S.; Ramakers, G.M.J.; Pasterkamp, R.J.
    The guidance protein Semaphorin7A (Sema7A) is required for the proper development of the immune and nervous systems. Despite strong expression in the mature brain, the role of Sema7A in the adult remains poorly defined. Here we show that Sema7A utilizes different cell surface receptors to control the proliferation and differentiation of neural progenitors in the adult hippocampal dentate gyrus (DG), one of the select regions of the mature brain where neurogenesis occurs. PlexinC1 is selectively expressed in early neural progenitors in the adult mouse DG and mediates the inhibitory effects of Sema7A on progenitor proliferation. Subsequently, during differentiation of adult-born DG granule cells, Sema7A promotes dendrite growth, complexity and spine development through ?1-subunit-containing integrin receptors. Our data identify Sema7A as a key regulator of adult hippocampal neurogenesis, providing an example of how differential receptor usage spatiotemporally controls and diversifies the effects of guidance cues in the adult brain.