•Deprivation-induced atrophy recovered by darkness or binocular lid closure.•Deprivation-induced loss of NT-4/5 recovered by darkness or binocular lid closure.•Binocular lid closure does not ...stimulate recovery from amblyopia.•However, a subsequent period of darkness stimulates full recovery from amblyopia.
Deprivation of patterned vision of frontal eyed mammals early in postnatal life alters structural and functional attributes of neurones in the central visual pathways, and can produce severe impairments of the vision of the deprived eye that resemble the visual loss observed in human amblyopia. A traditional approach to treatment of amblyopia has been the occlusion of the stronger fellow eye in order to force use of the weaker eye and thereby strengthen its connections in the visual cortex. Although this monocular treatment strategy can be effective at promoting recovery of visual acuity of the amblyopic eye, such binocular visual functions as stereoscopic vision often remain impaired due in part to the lack of concordant vision during the period of unilateral occlusion. The recent development of binocular approaches for treatment of amblyopia that improve the possibility for binocular interaction have achieved success in promoting visual recovery. The full and rapid recovery of visual acuity observed in amblyopic kittens placed in complete darkness is an example of a binocular treatment whose success may in part derive from a restored balance of visually-driven neural activity. In the current study we examined as an alternative to dark rearing the efficacy of binocular lid suture (BLS) to stimulate anatomical and visual recovery from a preceding amblyogenic period of monocular deprivation. In the dorsal lateral geniculate nucleus (dLGN) of monocularly deprived kittens, darkness or BLS for 10days produced a complete recovery of neurone soma size within initially deprived layers. The growth of neurone somata within initially deprived dLGN layers after darkness or BLS was accompanied by an increase in neurotrophin-4/5 labeling within these layers. Although anatomical recovery was observed in both recovery conditions, BLS failed to promote any improvement of the visual acuity of the deprived eye no matter whether it followed immediately or was delayed with respect to the prior period of monocular deprivation. Notwithstanding the lack of visual recovery with BLS, all animals in the BLS condition that were subsequently placed in darkness exhibited a substantial recovery of visual acuity in the amblyopic eye. We conclude that the balanced binocular visual input provided by BLS does not stimulate the collection of neural events necessary to support recovery from amblyopia. The complete absence of visually-driven activity that occurs with dark rearing evidently plays an important role in the recovery process.
Inorganic polyphosphate (polyP) is increasingly being recognized as an important phosphorus sink within the environment, playing a central role in phosphorus exchange and phosphogenesis. Yet despite ...the significant advances made in polyP research there is a lack of rapid and efficient analytical approaches for the quantification of polyP accumulation in microbial cultures and environmental samples. A major drawback is the need to extract polyP from cells prior to analysis. Due to extraction inefficiencies this can lead to an underestimation of both intracellular polyP levels and its environmental pool size: we observed 23–58% loss of polyP using standard solutions and current protocols. Here we report a direct fluorescence based DAPI assay system which removes the requirement for prior polyP extraction before quantification. This increased the efficiency of polyP detection by 28–55% in microbial cultures suggesting quantitative measurement of the intracellular polyP pool. It provides a direct polyP assay which combines quantification capability with technical simplicity. This is an important step forward in our ability to explore the role of polyP in cellular biology and biogeochemical nutrient cycling.
RANKL (receptor-activator of NF-κB ligand, TNFSF11) is a member of the TNF superfamily that regulates bone remodelling and the development of the thymus, lymph nodes and mammary glands. While RANKL ...and its membrane bound receptor RANK (TNFRSF11A) are expressed in the adult central nervous system and have been implicated in thermoregulation, the potential function of RANK signalling in the developing nervous system remains unexplored. Here, we show that RANK is expressed by sympathetic and sensory neurons of the developing mouse peripheral nervous system and that activating RANK signalling in these neurons during perinatal development by either treating cultured neurons with soluble RANKL or overexpressing RANK in the neurons inhibited neurotrophin-promoted neurite growth without affecting neurotrophin-promoted neuronal survival. RANKL is expressed in tissues innervated by these neurons, and studies in compartment cultures demonstrated that RANKL is capable of acting directly on neurites to inhibit growth locally. Enhancing RANK signalling in cultured neurons resulted in NF-κB activation and phosphorylation of the p65 NF-κB subunit on serine 536. Transfecting neurons with a series of mutated signalling proteins showed that NF-κB activation and p65 phosphorylation occurred by an IKKβ-dependent mechanism and that blockade of this signalling pathway prevented neurite growth inhibition by RANKL. These findings reveal that RANKL is a novel negative regulator of neurite growth from developing PNS neurons and that it exerts its effects by IKKβ-dependent activation of NF-κB.
Abstract Polyhydroxybutyrate (PHB) is a biological polymer which belongs to the class of polyesters and is ubiquitously present in all living organisms. Mammalian mitochondrial membranes contain PHB ...consisting of up to 120 hydroxybutyrate residues. Roles played by PHB in mammalian mitochondria remain obscure. It was previously demonstrated that PHB of the size similar to one found in mitochondria mediates calcium transport in lipid bilayer membranes. We hypothesized that the presence of PHB in mitochondrial membrane might play a significant role in mitochondrial calcium transport. To test this, we investigated how the induction of PHB hydrolysis affects mitochondrial calcium transport. Mitochondrial PHB was altered enzymatically by targeted expression of bacterial PHB hydrolyzing enzyme (PhaZ7) in mitochondria of mammalian cultured cells. The expression of PhaZ7 induced changes in mitochondrial metabolism resulting in decreased mitochondrial membrane potential in HepG2 but not in U87 and HeLa cells. Furthermore, it significantly inhibited mitochondrial calcium uptake in intact HepG2, U87 and HeLa cells stimulated by the ATP or by the application of increased concentrations of calcium to the digitonin permeabilized cells. Calcium uptake in PhaZ7 expressing cells was restored by mimicking calcium uniporter properties with natural electrogenic calcium ionophore – ferutinin. We propose that PHB is a previously unrecognized important component of the mitochondrial calcium uptake system.
Extended periods of darkness have long been used to study how the mammalian visual system develops in the absence of any instruction from vision. Because of the relative ease of implementation of ...darkness as a means to eliminate visually driven neural activity, it has usually been imposed earlier in life and for much longer periods than was the case for other manipulations of the early visual input used for study of their influences on visual system development. Recently, it was shown that following a very brief (10 days) period of darkness imposed at five weeks of age, kittens emerged blind. Although vision as assessed by measurements of visual acuity eventually recovered, the time course was very slow as it took seven weeks for visual acuity to attain normal levels. Here, we document the critical period of this remarkable vulnerability to the effects of short periods of darkness by imposing 10 days of darkness on nine normal kittens at progressively later ages. Results indicate that the period of susceptibility to darkness extends only to about 10 weeks of age, which is substantially shorter than the critical period for the effects of monocular deprivation in the primary visual cortex, which extends beyond six months of age.
Extended periods of darkness have long been used to study how the mammalian visual system develops in the absence of any instruction from vision. Because of the relative ease of implementation of ...darkness as a means to eliminate visually driven neural activity, it has usually been imposed earlier in life and for much longer periods than was the case for other manipulations of the early visual input used for study of their influences on visual system development. Recently, it was shown that following a very brief (10 days) period of darkness imposed at five weeks of age, kittens emerged blind. Although vision as assessed by measurements of visual acuity eventually recovered, the time course was very slow as it took seven weeks for visual acuity to attain normal levels. Here, we document the critical period of this remarkable vulnerability to the effects of short periods of darkness by imposing 10 days of darkness on nine normal kittens at progressively later ages. Results indicate that the period of susceptibility to darkness extends only to about 10 weeks of age, which is substantially shorter than the critical period for the effects of monocular deprivation in the primary visual cortex, which extends beyond six months of age.
A PCR screen, conducted in a previous study, to identify novel candidates involved in regulating the survival and growth of developing neurons, identified transcripts for the tumor necrosis factor ...receptor (TNFR) superfamily member receptor activator of NF-kB (RANK) in the experimentally tractable sensory neurons of the mouse nodose, trigeminal and superior cervical ganglia. Immunohistochemistry revealed coexpression of RANK, together with its ligand, RANKL, and osteoprotegerin (OPG), a decoy receptor, in all nodose, trigeminal and superior cervical gangia neurons in neonates. Over-expressing RANK inhibited BDNF- and CNTF-promoted neurite growth in nodose neurons, and NGF-promoted neurite growth in SCG and trigeminal neurons, without affecting neuronal survival. This effect was seen across a range of developmental ages, from embryonic timepoints, to postnatal ages, suggesting a fundamental role for this receptor in regulating neurotrophin-mediated neurite growth. Investigations revealed the requirement of TRAF2, NIK, IKKp and NF-kB, but not TRAF6 or IKKa, for RANK-mediated inhibition of BDNF-mediated neuritic outgrowth from nodose neurons at a time when neurons are extending axons and ramifying in their targets. Exploration of other possible RANK signalling mediators revealed a role for the important intracellular kinases, MEK and Akt, in the regulation of BDNF- mediated neuritic outgrowth from early postnatal nodose neurons. Akt was found to positively regulate BDNF-mediated neuritic outgrowth, while MEK negatively regulates the outgrowth mediated by this neurotrophin.
A PCR screen, conducted in a previous study, to identify novel candidates involved in regulating the survival and growth of developing neurons, identified transcripts for the tumor necrosis factor ...receptor (TNFR) superfamily member receptor activator of NF-kB (RANK) in the experimentally tractable sensory neurons of the mouse nodose, trigeminal and superior cervical ganglia. Immunohistochemistry revealed coexpression of RANK, together with its ligand, RANKL, and osteoprotegerin (OPG), a decoy receptor, in all nodose, trigeminal and superior cervical gangia neurons in neonates. Over-expressing RANK inhibited BDNF- and CNTF-promoted neurite growth in nodose neurons, and NGF-promoted neurite growth in SCG and trigeminal neurons, without affecting neuronal survival. This effect was seen across a range of developmental ages, from embryonic timepoints, to postnatal ages, suggesting a fundamental role for this receptor in regulating neurotrophin-mediated neurite growth. Investigations revealed the requirement of TRAF2, NIK, IKKp and NF-kB, but not TRAF6 or IKKa, for RANK-mediated inhibition of BDNF-mediated neuritic outgrowth from nodose neurons at a time when neurons are extending axons and ramifying in their targets. Exploration of other possible RANK signalling mediators revealed a role for the important intracellular kinases, MEK and Akt, in the regulation of BDNF- mediated neuritic outgrowth from early postnatal nodose neurons. Akt was found to positively regulate BDNF-mediated neuritic outgrowth, while MEK negatively regulates the outgrowth mediated by this neurotrophin.