Your search keyword '"West AK"' showing total 110 results

1. Integrated Telemetry Network

Author

Conference on Computers and Engineering (1985 : Hobart, Tas.), Cosgriff, GO, West, AK, and Beissel, CR

Published

1985

2. Computer Assisted Control and Data Logging for a Reservoir Inlet System

Author

Conference on Control Engineering (2nd : 1982 : Newcastle, N.S.W.), Cosgriff, GO, and West, AK

Published

1982

3. Relationships within Eucalyptus (Myrtaceae) using PCR-amplification and southern hybridisation of chloroplast DNA

Author

Sale, MM, primary, Potts, BM, additional, West, AK, additional, and Reid, JB, additional

Published

1996

4. Molecular Differentiation Within and Between Eucalyptus risdonii, E. amygdalina and Their Hybrids Using RAPD Markers

Author

Sale, MM, primary, Potts, BM, additional, West, AK, additional, and Reid, JB, additional

Published

1996

5. Relationships within Eucalyptus using chloroplast DNA

Author

Sale, MM, primary, Potts, BM, additional, West, AK, additional, and Reid, JB, additional

Published

1993

6. Restriction Fragment Length Polymorphisms in Chloroplast DNA From Six Species of Eucalyptus

Author

Steane, DA, primary, West, AK, additional, Potts, BM, additional, Ovenden, JR, additional, and Reid, JB, additional

Published

1991

7. Exogenous metallothionein-IIA promotes accelerated healing after a burn wound.

Author

Morellini NM, Giles NL, Rea S, Adcroft KF, Falder S, King CE, Dunlop SA, Beazley LD, West AK, Wood FM, and Fear MW

Published

2008

8. Molecular differentiation within and between Eucalyptus risdonii, E. amygdalina and their hybrids using RAPD markers

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

Random amplified polymorphic DNA (RAPD) studies of a natural hybrid swarm between Eucalyptus amygdalina Labill. and E. risdonii Hook.f. and nearby allopatric stands revealed that, despite clear morphological differences, all bands were shared between species. However, frequency differences revealed genetic divergence between species, populations within species, and individuals within populations. Variation was greatest between individuals within populations and lowest between species. For both species, the direction of variation which distinguished the two populations was in a different direction to that which separated the two species, suggesting population differences were not due to introgression but were the result of genetic isolation and/or strong localised selection. Several morphologically typical individuals with intermediate RAPD profiles were detected in the hybrid swarm and nearby allopatric samples of both species, suggesting that some cryptic introgression may be occurring. Controlled F1 crosses generally had closer genetic affinity to E. risdonii, raising the possibility that some parents used may have been advanced generation hybrids. While natural hybrids selected for their intermediate leaf phenotype were usually also intermediate between the two species using RAPD markers, some deviated markedly toward E. risdonii. The study suggests that morphological appearance does not necessarily reflect genetic (RAPD) status and in some cases detectable RAPD differences between spatially close populations of the same species may be as great or greater than the differences between species.

9. Restriction fragment length polymorphisms in chloroplast DNA from six species of eucalyptus

Author

Steane, DA, West, AK, Potts, BM, Ovenden, JR, Reid, JB, Steane, DA, West, AK, Potts, BM, Ovenden, JR, and Reid, JB

Abstract

Chloroplast DNA was extracted from six species of Eucalyptus (E. perriniana, E. nitens, E. ovata, E. regnans, E. amygdalina and E. risdonii). Digests with four restriction enzymes (Hind III, Xho I, Nco I and Eco RV) revealed restriction fragment length polymorphisms (RFLPs) between subgenera, between species and within species. However, no variation in fragment pattern was detected with Sac II or Pst I. The subgenera Monocalyptus and Symphyomyrtus were clearly differentiated by their RFLP patterns where, with the exception of one outlying specimen of E. amygdalina, 45% of all polymorphic fragments were specific to one or other subgenus. While species from different subgenera and series were well differentiated, it was more difficult to differentiate species within series with the low sample sizes used. However, the average net divergence between species increased with increasing taxonomic distance between species, from 0.02% within series and 0.20% between species from different series within subgenera, to 0.99% of nucleotides per nucleotide site for species from different subgenera. Based on Eco RV digests, the eucalypt chloroplast genome was estimated at 143 kb.

10. Restriction fragment length polymorphisms in chloroplast DNA from six species of eucalyptus

Author

Steane, DA, West, AK, Potts, BM, Ovenden, JR, Reid, JB, Steane, DA, West, AK, Potts, BM, Ovenden, JR, and Reid, JB

Abstract

Chloroplast DNA was extracted from six species of Eucalyptus (E. perriniana, E. nitens, E. ovata, E. regnans, E. amygdalina and E. risdonii). Digests with four restriction enzymes (Hind III, Xho I, Nco I and Eco RV) revealed restriction fragment length polymorphisms (RFLPs) between subgenera, between species and within species. However, no variation in fragment pattern was detected with Sac II or Pst I. The subgenera Monocalyptus and Symphyomyrtus were clearly differentiated by their RFLP patterns where, with the exception of one outlying specimen of E. amygdalina, 45% of all polymorphic fragments were specific to one or other subgenus. While species from different subgenera and series were well differentiated, it was more difficult to differentiate species within series with the low sample sizes used. However, the average net divergence between species increased with increasing taxonomic distance between species, from 0.02% within series and 0.20% between species from different series within subgenera, to 0.99% of nucleotides per nucleotide site for species from different subgenera. Based on Eco RV digests, the eucalypt chloroplast genome was estimated at 143 kb.

11. Molecular differentiation within and between Eucalyptus risdonii, E. amygdalina and their hybrids using RAPD markers

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

Random amplified polymorphic DNA (RAPD) studies of a natural hybrid swarm between Eucalyptus amygdalina Labill. and E. risdonii Hook.f. and nearby allopatric stands revealed that, despite clear morphological differences, all bands were shared between species. However, frequency differences revealed genetic divergence between species, populations within species, and individuals within populations. Variation was greatest between individuals within populations and lowest between species. For both species, the direction of variation which distinguished the two populations was in a different direction to that which separated the two species, suggesting population differences were not due to introgression but were the result of genetic isolation and/or strong localised selection. Several morphologically typical individuals with intermediate RAPD profiles were detected in the hybrid swarm and nearby allopatric samples of both species, suggesting that some cryptic introgression may be occurring. Controlled F1 crosses generally had closer genetic affinity to E. risdonii, raising the possibility that some parents used may have been advanced generation hybrids. While natural hybrids selected for their intermediate leaf phenotype were usually also intermediate between the two species using RAPD markers, some deviated markedly toward E. risdonii. The study suggests that morphological appearance does not necessarily reflect genetic (RAPD) status and in some cases detectable RAPD differences between spatially close populations of the same species may be as great or greater than the differences between species.

12. Relationships within Eucalyptus (Myrtaceae) using PCR-amplification and southern hybridisation of chloroplast DNA

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

Chloroplast DNA based phylogenetic studies using PCR-amplification and digestion (40 species) combined with Southern blotting (23 species) suggest that Angophora and some representatives of the Eucalyptus subgenera Corymbia and Blakella form a monophyletic group. The subgenera Eudesmia, Monocalyptus, Gaubaea, Idiogenes, Symphyoinyrtus and Telocalyptus appear to form a well defined monophyletic group encompassing most of Eucalyptus, but the exact sister taxon to this group remains unresolved. The results suggest that subgenera Corymbia and Blakella are paraphyletic and that Telocalyptus should be submerged within the subgenus Symnphyoinyrtus.

13. Relationships within Eucalyptus using chloroplast DNA

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

The potential use of restriction fragment length polymorphisms (RFLPs) of chloroplast DNA to determine relationships at higher taxonomic levels in the genus Eucalptus was examined. Chloroplast DNA from 24 species, encompassing representatives of all the subgenera of Eucalyptus as well as one representative of the genus Angophora, was analysed using four 6-base restriction endonucleases. Eighty-four polymorphisms were obtained (twenty-eight autopomorphic) and the data matrix analysed using both cladistic and phenetic approaches. Results provided relatively good congruence with taxonomic perceptions based on morphological traits. Eucalyptus subgenera Blakella and Corymbia appear to be genetically similar to each other and to Angophora, although their phylogenetic relationships are not resolved in this study. Using Angophora alone, or together with the bloodwoods Blakella and Corynthia, as the outgroup for cladistic analysis, the two representatives of Eudesmia examined form a distinctly separate monophyletic group, which appears to be the sister taxon to Idiogenes, Gaubaen, Monocalyptus and Symphyomyrtus. The results provide some support for the close association of Idiogenes, Gauhaea and Monocalyptus and the hypothesis that they are the sister group of Symphyomyrtus. Taxonomically problematic species Eucalyptus guilfoylei, E. microcorys and E. deglupta were included in the study and it was found that E. guilfoylei appeared to diverge prior to the rest of the Symphyomyrtus, E. microcorys near the root of this clade, while the Telocalyptus representative E. deglupta fell within Symplgvontyrtus. The results obtained from the chloroplast DNA data provided independent support for previous morphological studies while generating new hypotheses and highlighting areas requiring closer examination.

14. Bacteria and PAMPs activate NK?B and Gro production in a subset of olfactory ensheathing cells and astrocytes but not in Schwann cells

Author

Vincent, AJ, Choi-Lundberg, DL, Harris, JA, West, AK, Chuah, MI, Vincent, AJ, Choi-Lundberg, DL, Harris, JA, West, AK, and Chuah, MI

Abstract

The primary olfactory nerves provide uninterrupted conduits for neurotropic pathogens to access the brain from the nasal cavity, yet infection via this route is uncommon. It is conceivable that olfactory ensheathing cells (OECs), which envelope the olfactory nerves along their entire length, provide a degree of immunological protection against such infections. We hypothesized that cultured OECs would be able to mount a biologically significant response to bacteria and pathogen-associated molecular patterns (PAMPs). The response of OECs to Escherichia coli (E. coli) and various PAMPs was compared to that of Schwann cells (SCs), astrocytes (ACs), and microglia (MG). A subset of OECs displayed nuclear localization of nuclear factor kB (NFkB), an inflammatory transcription factor, after treatment with E. coli (20% 6 5%), lipopolysacchride (33% 6 9%), and Poly I:C (25% 6 5%), but not with peptidoglycan or CpG oligonucleotides. ACs displayed a similar level of activation to these treatments, and in addition responded to peptidoglycan. The activation of OECs and ACs was enhanced by coculture with MG (56% 6 16% and 85% 6 13%, respectively). In contrast, SCs did not respond to any treatment or to costimulation by MG. Immunostaining for the chemokine Gro demonstrated a functional response that was consistent with NFkB activation. OECs expressed mRNA for Toll-like receptors (TLRs) 2 and 4, but only TLR4 protein was detected by Western blotting and immunohistochemistry. The results demonstrate that OECs possess the cellular machinery that permits them to respond to certain bacterial ligands, and may have an innate immune function in protecting the CNS against infection.

15. Effect of olfactory ensheathing cells on reactive astrocytes in vitro

Author

O'Toole, DAJ, West, AK, Chuah, MI, O'Toole, DAJ, West, AK, and Chuah, MI

Abstract

Olfactory ensheathing cells have been used in several studies to promote repair in the injured spinal cord. However, cellular interaction between olfactory ensheathing cells and glial cells induced to be reactive in the aftermath of injury site has not been investigated. Using an in vitro model of astrogliosis, we show that reactive astrocytes expressed significantly less glial fibrillary acidic protein (GFAP) when cultured both in direct contact with olfactory ensheathing cells and when the two cell types were separated by a porous membrane. Immunofluorescence staining also suggested that reactive astrocytes showed decreased chondroitin sulfate proteoglycans in the presence of olfactory ensheathing cells, although the reduction was not statistically significant. No down-regulation of GFAP was observed when reactive astrocytes were similarly cultured with Schwann cells. Cell viability assay and bromodeoxyuridine uptake showed that proliferation of reactive astrocytes was significantly increased in the presence of olfactory ensheathing cells and Schwann cells.

16. Metallothionein expression by NG2 glial cells following CNS injury

Author

Chung, RS, Fung, SJ, Leung, YK, Walker, AK, McCormack, GH, Chuah, MI, Vickers, JC, West, AK, Chung, RS, Fung, SJ, Leung, YK, Walker, AK, McCormack, GH, Chuah, MI, Vickers, JC, and West, AK

Abstract

Metallothionein (MT) expression is rapidly up-regulated following CNS injury, and there is a strong correlation between the presence or absence of MTand improved or impaired (respectively) recovery from such trauma.We now report that a distinct subset of NG2-positive, GFAP-negative glial cells bordering the injury tract express MT following focal injury to the adult rat neocortex. To confirm the ability of these NG2 glial cells to express MT, we have isolated and cultured them and identified that they can expressMT following stimulation with zinc. To investigate the functional importance of MTexpression by NG2 glial cells, we plated cortical neurons onto these cells and found that expression of MTenhanced the permissivity of NG2 glial cells to neurite outgrowth. Our data suggest that expression of MT by NG2 glial cells may contribute to the overall permissiveness of these cells to axon regeneration.

17. Redefining the role of metallothionein within the injured brain: extracellular metallothioneins play an important role in the astrocyte-neuron response to injury

Author

Chung, RS, Penkowa, M, Dittman, J, King, CE, Bartlett, C, Asmussen, JW, Hidalgo, J, Carrasco, J, Leung, YK, Walker, AK, Fung, SJ, Dunlop, SA, Fitzgerald, M, Beazley, LD, Chuah, MI, Vickers, JC, West, AK, Chung, RS, Penkowa, M, Dittman, J, King, CE, Bartlett, C, Asmussen, JW, Hidalgo, J, Carrasco, J, Leung, YK, Walker, AK, Fung, SJ, Dunlop, SA, Fitzgerald, M, Beazley, LD, Chuah, MI, Vickers, JC, and West, AK

Abstract

Anumber of intracellular proteins that are protective after brain injury are classically thought to exert their effect within the expressing cell. The astrocytic metallothioneins (MT) are one example and are thought to act via intracellular free radical scavenging and heavy metal regulation, and in particular zinc. Indeed, wehave previously established that astrocyticMTsare required for successful brain healing. Here we provide evidence for a fundamentally different mode of action relying upon intercellular transfer from astrocytes to neurons, which in turn leads to uptake-dependent axonal regeneration. First, we show that MT can be detected within the extracellular fluid of the injured brain, and that cultured astrocytes are capable of actively secreting MT in a regulatable manner. Second,weidentify a receptor, megalin, that mediatesMTtransportintoneurons. Third,wedirectlydemonstratefor the first time the transfer ofMTfrom astrocytes to neurons over a specific time course in vitro. Finally, we show that MT is rapidly internalizedviathecellbodiesofretinalganglioncellsinvivoandis a powerful promoter of axonal regeneration through the inhibitory environment of the completely severed mature optic nerve. Our work suggests that the protective functions of MT in the central nervoussystemshouldbewidenedfromapurelyastrocyticfocusto include extracellular and intra-neuronal roles. This unsuspected action of MT represents a novel paradigm of astrocyte-neuronal interaction after injury and may have implications

18. Restriction fragment length polymorphisms in chloroplast DNA from six species of eucalyptus

Author

Steane, DA, West, AK, Potts, BM, Ovenden, JR, Reid, JB, Steane, DA, West, AK, Potts, BM, Ovenden, JR, and Reid, JB

Abstract

Chloroplast DNA was extracted from six species of Eucalyptus (E. perriniana, E. nitens, E. ovata, E. regnans, E. amygdalina and E. risdonii). Digests with four restriction enzymes (Hind III, Xho I, Nco I and Eco RV) revealed restriction fragment length polymorphisms (RFLPs) between subgenera, between species and within species. However, no variation in fragment pattern was detected with Sac II or Pst I. The subgenera Monocalyptus and Symphyomyrtus were clearly differentiated by their RFLP patterns where, with the exception of one outlying specimen of E. amygdalina, 45% of all polymorphic fragments were specific to one or other subgenus. While species from different subgenera and series were well differentiated, it was more difficult to differentiate species within series with the low sample sizes used. However, the average net divergence between species increased with increasing taxonomic distance between species, from 0.02% within series and 0.20% between species from different series within subgenera, to 0.99% of nucleotides per nucleotide site for species from different subgenera. Based on Eco RV digests, the eucalypt chloroplast genome was estimated at 143 kb.

19. Molecular differentiation within and between Eucalyptus risdonii, E. amygdalina and their hybrids using RAPD markers

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

Random amplified polymorphic DNA (RAPD) studies of a natural hybrid swarm between Eucalyptus amygdalina Labill. and E. risdonii Hook.f. and nearby allopatric stands revealed that, despite clear morphological differences, all bands were shared between species. However, frequency differences revealed genetic divergence between species, populations within species, and individuals within populations. Variation was greatest between individuals within populations and lowest between species. For both species, the direction of variation which distinguished the two populations was in a different direction to that which separated the two species, suggesting population differences were not due to introgression but were the result of genetic isolation and/or strong localised selection. Several morphologically typical individuals with intermediate RAPD profiles were detected in the hybrid swarm and nearby allopatric samples of both species, suggesting that some cryptic introgression may be occurring. Controlled F1 crosses generally had closer genetic affinity to E. risdonii, raising the possibility that some parents used may have been advanced generation hybrids. While natural hybrids selected for their intermediate leaf phenotype were usually also intermediate between the two species using RAPD markers, some deviated markedly toward E. risdonii. The study suggests that morphological appearance does not necessarily reflect genetic (RAPD) status and in some cases detectable RAPD differences between spatially close populations of the same species may be as great or greater than the differences between species.

20. Restriction fragment length polymorphisms in chloroplast DNA from six species of eucalyptus

Author

Steane, DA, West, AK, Potts, BM, Ovenden, JR, Reid, JB, Steane, DA, West, AK, Potts, BM, Ovenden, JR, and Reid, JB

Abstract

Chloroplast DNA was extracted from six species of Eucalyptus (E. perriniana, E. nitens, E. ovata, E. regnans, E. amygdalina and E. risdonii). Digests with four restriction enzymes (Hind III, Xho I, Nco I and Eco RV) revealed restriction fragment length polymorphisms (RFLPs) between subgenera, between species and within species. However, no variation in fragment pattern was detected with Sac II or Pst I. The subgenera Monocalyptus and Symphyomyrtus were clearly differentiated by their RFLP patterns where, with the exception of one outlying specimen of E. amygdalina, 45% of all polymorphic fragments were specific to one or other subgenus. While species from different subgenera and series were well differentiated, it was more difficult to differentiate species within series with the low sample sizes used. However, the average net divergence between species increased with increasing taxonomic distance between species, from 0.02% within series and 0.20% between species from different series within subgenera, to 0.99% of nucleotides per nucleotide site for species from different subgenera. Based on Eco RV digests, the eucalypt chloroplast genome was estimated at 143 kb.

21. Molecular differentiation within and between Eucalyptus risdonii, E. amygdalina and their hybrids using RAPD markers

Author

Sale, MM, Potts, BM, West, AK, Reid, JB, Sale, MM, Potts, BM, West, AK, and Reid, JB

Abstract

Random amplified polymorphic DNA (RAPD) studies of a natural hybrid swarm between Eucalyptus amygdalina Labill. and E. risdonii Hook.f. and nearby allopatric stands revealed that, despite clear morphological differences, all bands were shared between species. However, frequency differences revealed genetic divergence between species, populations within species, and individuals within populations. Variation was greatest between individuals within populations and lowest between species. For both species, the direction of variation which distinguished the two populations was in a different direction to that which separated the two species, suggesting population differences were not due to introgression but were the result of genetic isolation and/or strong localised selection. Several morphologically typical individuals with intermediate RAPD profiles were detected in the hybrid swarm and nearby allopatric samples of both species, suggesting that some cryptic introgression may be occurring. Controlled F1 crosses generally had closer genetic affinity to E. risdonii, raising the possibility that some parents used may have been advanced generation hybrids. While natural hybrids selected for their intermediate leaf phenotype were usually also intermediate between the two species using RAPD markers, some deviated markedly toward E. risdonii. The study suggests that morphological appearance does not necessarily reflect genetic (RAPD) status and in some cases detectable RAPD differences between spatially close populations of the same species may be as great or greater than the differences between species.

22. Redefining the role of metallothionein within the injured brain: extracellular metallothioneins play an important role in the astrocyte-neuron response to injury

Author

Chung, RS, Penkowa, M, Dittman, J, King, CE, Bartlett, C, Asmussen, JW, Hidalgo, J, Carrasco, J, Leung, YK, Walker, AK, Fung, SJ, Dunlop, SA, Fitzgerald, M, Beazley, LD, Chuah, MI, Vickers, JC, West, AK, Chung, RS, Penkowa, M, Dittman, J, King, CE, Bartlett, C, Asmussen, JW, Hidalgo, J, Carrasco, J, Leung, YK, Walker, AK, Fung, SJ, Dunlop, SA, Fitzgerald, M, Beazley, LD, Chuah, MI, Vickers, JC, and West, AK

Abstract

Anumber of intracellular proteins that are protective after brain injury are classically thought to exert their effect within the expressing cell. The astrocytic metallothioneins (MT) are one example and are thought to act via intracellular free radical scavenging and heavy metal regulation, and in particular zinc. Indeed, wehave previously established that astrocyticMTsare required for successful brain healing. Here we provide evidence for a fundamentally different mode of action relying upon intercellular transfer from astrocytes to neurons, which in turn leads to uptake-dependent axonal regeneration. First, we show that MT can be detected within the extracellular fluid of the injured brain, and that cultured astrocytes are capable of actively secreting MT in a regulatable manner. Second,weidentify a receptor, megalin, that mediatesMTtransportintoneurons. Third,wedirectlydemonstratefor the first time the transfer ofMTfrom astrocytes to neurons over a specific time course in vitro. Finally, we show that MT is rapidly internalizedviathecellbodiesofretinalganglioncellsinvivoandis a powerful promoter of axonal regeneration through the inhibitory environment of the completely severed mature optic nerve. Our work suggests that the protective functions of MT in the central nervoussystemshouldbewidenedfromapurelyastrocyticfocusto include extracellular and intra-neuronal roles. This unsuspected action of MT represents a novel paradigm of astrocyte-neuronal interaction after injury and may have implications

23. A novel suppressor of Piezo2 in rodent nociceptors.

Author

West AK and Schneider ER

Subjects

Animals, Humans, Pain metabolism, Pain physiopathology, Rodentia, Ion Channels metabolism, Mechanotransduction, Cellular physiology, Nociceptors metabolism, Nociceptors physiology

Abstract

Members of both the Piezo and transmembrane channel-like (TMC) families are bona fide mammalian mechanotransducers. In a recent study, Zhang, Shao et al. discovered that TMC7, a non-mechanosensitive TMC, inhibits Piezo2-dependent mechanosensation, with implications for the importance of cellular context for Piezo2 channels in normal and pathological responses to mechanical pain., Competing Interests: Declaration of interests The authors declare no competing interests in relation to this work., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

24. An invertebrate model in examining the effect of acute ferric iron exposure on proprioceptive neurons.

Author

Wagers ML, Starks A, Abul-Khoudoud MO, Ahmed SM, Alhamdani AW, Ashley C, Bidros PC, Bledsoe CO, Bolton KE, Capili JG, Henning JN, Ison BJ, Moon M, Phe P, Stonecipher SB, Taylor IN, Turner LT, West AK, and Cooper RL

Subjects

Animals, Invertebrates metabolism, Neurons metabolism, Proprioception, Mammals metabolism, Ferric Compounds toxicity, Iron toxicity, Iron metabolism

Abstract

Iron is an essential element for plant and animal life and is found in soil, fresh waters and marine waters. The Fe 3+ ion is a vital prosthetic group and cofactor to mitochondrial electron transport complexes and numerous proteins involved in normal functioning. Despite its importance to life-sustaining processes, overexposure results in toxicity. For example, ferric iron (Fe 3+ ) accumulation in the mammalian central nervous system is associated with various neurological disorders. Although current literature addresses the long-term effects of Fe 3+ overload, fewer studies exist examining the effects of acute exposure. Using the blue crab (Callinectes sapidus), we investigate the effects of acute Fe 3+ overload on proprioception within the propodite-dactylopodite (PD) nerve. For proprioceptive studies, 10- and 20-mM ferric chloride and ferric ammonium citrate solutions were used at 5- and 20- min exposure times. Exposure to 20 mM concentrations of ferric chloride and ferric ammonium citrate reduced excitability in proprioceptive neurons. Thus, Fe 3+ likely blocks stretch-activated channels or voltage-gated Na + channels. The depressive effects of Fe 3+ are partly reversible following saline washout, indicating cells are not acutely damaged. Gadolinium (GdCl 3 , 1 and 10 mM) was used to examine the effects of an additional trivalent ion comparator. Gd 3+ depressed PD nerve compound action potential amplitude while increasing the compound action potential duration. This study is relevant in demonstrating the dose-dependent effects of acute Fe 3+ and Gd 3+ exposure on proprioception and provides a model system to further investigate the mechanisms by which metals act on the nervous system., Competing Interests: Declaration of competing interest The authors declare that they have no conflicts of interest., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

25. The Effect of Doxapram on Proprioceptive Neurons: Invertebrate Model.

Author

Ison BJ, Abul-Khoudoud MO, Ahmed S, Alhamdani AW, Ashley C, Bidros PC, Bledsoe CO, Bolton KE, Capili JG, Henning JN, Moon M, Phe P, Stonecipher SB, Tanner HN, Turner LT, Taylor IN, Wagers ML, West AK, and Cooper RL

Abstract

The resting membrane potential enables neurons to rapidly initiate and conduct electrical signals. K2p channels are key in maintaining this membrane potential and electrical excitability. They direct the resting membrane potential toward the K + equilibrium potential. Doxapram is a known blocker for a subset of K2p channels that are pH sensitive. We assessed the effects of 0.1 and 5 mM doxapram on the neural activity within the propodite-dactylopodite (PD) proprioceptive sensory organ in the walking legs of blue crabs ( Callinectes sapidus ). Results indicate that 0.1 mM doxapram enhances excitation, while the higher concentration 5 mM may over-excite the neurons and promote a sustained absolute refractory period until the compound is removed. The effect of 5 mM doxapram mimics the effect of 40 mM K + exposure. Verapamil, another known K2p channel blocker as well as an L-type Ca 2+ channel blocker, reduces neural activity at both 0.1 and 5 mM. Verapamil may block stretch activated channels in sensory endings, in addition to reducing the amplitude of the compound action potential with whole nerve preparations. These findings are notable as they demonstrate that doxapram has acute effects on neurons of crustaceans, suggesting a targeted K2p channel. The actions of verapamil are complex due to the potential of affecting multiple ion channels in this preparation. Crustacean neurons can aid in understanding the mechanisms of action of various pharmacological agents as more information is gained., Competing Interests: Conflicts of InterestThe authors declare that they have no conflict of interest., (© 2022 by the authors.)

Published

2022

26. Synthesis, photophysical and nonlinear optical properties of push-pull tetrazoles.

Author

West AK, Kaylor LJ, Subir M, and Rayat S

Abstract

A 2,5-disubstituted tetrazole with p -nitrophenyl and 3-pyridyl units as acceptors (1a), and three push-pull tetrazoles with p -nitrophenyl as an acceptor and phenyl (1b), 2-(dibenzo[ b , d ]furan-4-yl) (1c), and 4-( N , N -diphenylamino)phenyl (1d) as donor groups, were synthesized by copper-catalyzed aerobic C-N coupling of p -nitrophenyl tetrazole with appropriately substituted aryl boronic acids. The absorption and emission spectra of 1a-c showed minimal dependence on the polarity of the solvent; however, in the case of 1d a blue shift was noted in the longest absorption band ( λ 1 ) as the polarity increased. The fluorescence intensity of the title compounds was found to be solvent-dependent; however, no apparent correlation to solvent polarity could be established. The absorption and emission characteristics of 1a-d were also influenced by the nature of the substituent as 1d, bearing a strong electron donating 4-( N , N -diphenylamino)phenyl group, displayed a significant red shifted absorption ( λ 1 ) as well as emission ( λ em ) bands compared to other compounds. Time dependent density functional calculations (CAM-B3LYP/6-311++G**) revealed that the longest wavelength band ( λ 1 ) is associated with an intramolecular charge transfer (ICT) from HOMO/HOMO-1/HOMO-2 → LUMO/LUMO+1 in these molecules. The first hyperpolarizability values, β HRS , of 1a-d were measured using the solution-based hyper-Rayleigh scattering technique using a femtosecond Ti:Sapphire laser and the highest NLO activity was measured for 1d with the greatest push-pull characteristics. A strong correlation was observed between the calculated hyperpolarizability ( β tot ) and experimentally measured values ( β HRS )., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

27. Quantitative Evaluation of Tactile Foraging Behavior in Pekin and Muscovy Ducks.

Author

West AK, Xu EM, Nelson MD, Hart TR, Stricker EM, Cones AG, Martin GM, Strickland K, Lambert DL, Burman L, Zhu BH, and Schneider ER

Abstract

Ducks have developed a variety of foraging strategies that utilize touch sensitive bills to match their ecological niche within wetlands. These techniques include diving, sieving, dabbling, and grazing. Ducks exhibiting tactile specialization in foraging outperform visual and non-tactile foraging ducks in behavioral experiments and have a higher percentage of light-touch mechanoreceptor neurons expressing Piezo2 in the trigeminal ganglia. Belonging to two different tribes of Anseriformes, the well-studied tactile specialist Pekin (Tribe Anatini: Anas platyrhynchos domestica ) and lesser studied Muscovy (Tribe Cairinini: Cairina moschata domestica ) ducks were tested on a series of experiments to assess these birds' functional tactile acuity. Both species of duck were able to separate out and consume edible items from increasing amounts of inedible plastiline clay distractors. They could also both be trained to associate a food reward with plastiline stimuli of differing size and shape using touch alone. However, only females of each species could learn to associate food reward with otherwise identical stimuli differing only in hardness. Pekin females performed significantly better than Muscovy females suggesting the anatomical specializations present in many Anatini may contribute to this type of tactile acuity. These findings have potential relevance in understanding the evolution of tactile ability and feeding ecology., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 West, Xu, Nelson, Hart, Stricker, Cones, Martin, Strickland, Lambert, Burman, Zhu and Schneider.)

Published

2022

28. The influence of metallothionein treatment and treadmill running exercise on disease onset and survival in SOD1 G93A amyotrophic lateral sclerosis mice.

Author

Lewis KEA, Bennett W, Blizzard CL, West AK, Chung RS, and Chuah MI

Subjects

Animals, Disease Models, Animal, Female, Mice, Mice, Transgenic, Quality of Life, Amyotrophic Lateral Sclerosis drug therapy, Metallothionein therapeutic use, Physical Conditioning, Animal, Superoxide Dismutase-1 genetics

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease, characterised by the degeneration of motor neurons innervating skeletal muscle. The mechanisms underlying neurodegeneration in ALS are not yet fully elucidated, and with current therapeutics only able to extend lifespan by a matter of months there is a clear need for novel therapies to increase lifespan and patient quality of life. Here, we evaluated whether moderate-intensity treadmill exercise and/or treatment with metallothionein-2 (MT2), a neuroprotective protein, could improve survival, behavioural or neuropathological outcomes in SOD1 G93A familial ALS mice. Six-week-old female SOD1 G93A mice were allocated to one of four treatment groups: MT2 injection, i.m.; moderate treadmill exercise; neither MT2 nor exercise; or both MT2 and exercise. MT2-treated mice survived around 3% longer than vehicle-treated mice, with this mild effect reaching statistical significance in Cox proportional hazards analysis once adjusted for potential confounders. Mixed model body weight trajectories over time indicated that MT2-treated mice, with or without exercise, reached maximum body weight at a later age, suggesting a delay in disease onset of around 4% compared to saline-treated mice. Exercise alone did not significantly increase survival or delay disease onset, and neither exercise nor MT2 substantially ameliorated gait abnormalities or muscle strength loss. We conclude that neither exercise nor MT2 treatment was detrimental in female SOD1 G93A mice, and further study could determine whether the mild effect of peripheral MT2 administration on disease onset and survival could be improved via direct administration of MT2 to the central nervous system., (© 2020 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2020

29. [Knowledge and early detection of testicular germ cell cancer among adolescents and young adults].

Author

Anheuser P, Mühlstädt S, Fornara P, Steffens J, Dieckmann KP, and Kranz J

Subjects

Adolescent, Humans, Male, Sexual Behavior, Surveys and Questionnaires, Testicular Neoplasms prevention & control, Young Adult, Health Knowledge, Attitudes, Practice, Neoplasms, Germ Cell and Embryonal diagnosis, Students psychology, Testicular Neoplasms diagnosis

Abstract

Introduction: Malignant testicular germ cell tumors are the most common tumor disease in young men, affecting not only the period of his reproductive phase but also creating a complex life situation. Therapy includes the risk of development of second neoplasia and sequelae. However, particularly in this age group, knowledge about this disease and risk factors is sparse, and preventive examinations are not available or are not or insufficiently used., Materials and Methods: In order to evaluate the state of knowledge on testicular tumors in adolescents, a knowledge survey was conducted at 6 high schools in Hamburg from January to April 2019 among pupils of grades 11 and 12. This was carried out with a questionnaire comprising 15 items, which was analyzed and also evaluated on a gender-specific basis. Only fully completed questionnaires were considered., Results: The overall proportion of correctly answered questions was 60.04%. Broken down by gender, the proportion was 60.18% for female pupils and 59.14% for male pupils, while the gender ratio was 52.2 and 47.8% for female pupils. Special questions on testicular tumors were answered correctly by 59.71% of the female students and 54.8% of the male students, while general questions on the structure and function of the male sexual organs were answered 4.51% better by the male students with 64.9%. These were statistically significant in both cases., Conclusion: The survey shows a gender-specific knowledge deficit on testicular tumors, which is more pronounced among boys. As intensified knowledge transfer on this topic alone is insufficient, a preventive examination should be established especially for boys. This would enable individual, risk-commensurate and needs-adapted monitoring and early detection of testicular tumor disease, but also of other health issues in male adolescents.

Published

2019

30. Aurora kinase B regulates axonal outgrowth and regeneration in the spinal motor neurons of developing zebrafish.

Author

Gwee SSL, Radford RAW, Chow S, Syal MD, Morsch M, Formella I, Lee A, Don EK, Badrock AP, Cole NJ, West AK, Cheung SNS, and Chung RS

Subjects

Animals, Animals, Genetically Modified, Aurora Kinase B antagonists & inhibitors, Aurora Kinase B genetics, Embryo, Nonmammalian cytology, Embryo, Nonmammalian embryology, Embryo, Nonmammalian metabolism, Gene Expression Regulation, Developmental, Organophosphates pharmacology, Protein Kinase Inhibitors pharmacology, Quinazolines pharmacology, Spinal Cord cytology, Spinal Cord embryology, Spinal Cord Injuries genetics, Spinal Cord Injuries metabolism, Spinal Cord Injuries physiopathology, Zebrafish, Zebrafish Proteins antagonists & inhibitors, Zebrafish Proteins genetics, Aurora Kinase B metabolism, Axons physiology, Motor Neurons metabolism, Nerve Regeneration physiology, Zebrafish Proteins metabolism

Abstract

Aurora kinase B (AurkB) is a serine/threonine protein kinase with a well-characterised role in orchestrating cell division and cytokinesis, and is prominently expressed in healthy proliferating and cancerous cells. However, the role of AurkB in differentiated and non-dividing cells has not been extensively explored. Previously, we have described a significant upregulation of AurkB expression in cultured cortical neurons following an experimental axonal transection. This is somewhat surprising, as AurkB expression is generally associated only with dividing cells Frangini et al. (Mol Cell 51:647-661, 2013); Hegarat et al. (J Cell Biol 195:1103-1113, 2011); Lu et al. (J Biol Chem 283:31785-31790, 2008); Trakala et al. (Cell Cycle 12:1030-1041, 2014). Herein, we present the first description of a role for AurkB in terminally differentiated neurons. AurkB was prominently expressed within post-mitotic neurons of the zebrafish brain and spinal cord. The expression of AurkB varied during the development of the zebrafish spinal motor neurons. Utilising pharmacological and genetic manipulation to impair AurkB activity resulted in truncation and aberrant motor axon morphology, while overexpression of AurkB resulted in extended axonal outgrowth. Further pharmacological inhibition of AurkB activity in regenerating axons delayed their recovery following UV laser-mediated injury. Collectively, these results suggest a hitherto unreported role of AurkB in regulating neuronal development and axonal outgrowth.

Published

2018

31. Women's perceptions of dense breast notifications in a Massachusetts safety net hospital: "So what is that supposed to mean?"

Author

Gunn CM, Battaglia TA, Paasche-Orlow MK, West AK, and Kressin NR

Subjects

Adult, Aged, Breast Neoplasms psychology, Female, Humans, Interviews as Topic, Mammography, Massachusetts, Middle Aged, Qualitative Research, Safety-net Providers, Breast Density, Breast Neoplasms diagnosis, Comprehension, Health Communication, Perception

Abstract

Objective: Currently, 30 US states mandate that radiologists notify women when dense breast tissue is found on mammography. Little is understood about how notifications are perceived by recipients. This qualitative study sought to understand how dense breast notifications (DBNs) impact women's perceptions and their participation in follow-up care., Methods: We assessed rates of DBN recall and conducted semi-structured telephone interviews with 30 English-speaking women ages 40 to 74 after receiving a DBN from a Massachusetts hospital. Content coding characterized women's recall of the notification content, perceptions of breast density, and planned or actual participation in follow-up care., Results: Most women (81%) recalled receiving a DBN, but few could recall specific content. Women described struggling to understand the meaning of breast density and created their own explanatory models of dense breasts that differed from medical explanations. Many women planned to or did talk with their doctors about breast density as a result of receiving the notification., Conclusions: Women receiving DBNs have limited knowledge and many misperceptions about the implications of having dense breasts., Practice Implications: Educational support is needed to promote informed decision- making about breast cancer screening that incorporates personal risk in the setting of dense breast legislation., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

32. Low-density Lipoprotein Receptor-related Proteins in a Novel Mechanism of Axon Guidance and Peripheral Nerve Regeneration.

Author

Landowski LM, Pavez M, Brown LS, Gasperini R, Taylor BV, West AK, and Foa L

Subjects

Animals, Axons drug effects, Calcium Signaling drug effects, Cells, Cultured, Chemotaxis drug effects, Epidermis drug effects, Epidermis innervation, Ganglia, Spinal cytology, Ganglia, Spinal drug effects, Ganglia, Spinal physiology, Growth Cones drug effects, Growth Cones metabolism, Ligands, Low Density Lipoprotein Receptor-Related Protein-1 antagonists & inhibitors, Low Density Lipoprotein Receptor-Related Protein-1 genetics, Low Density Lipoprotein Receptor-Related Protein-1 metabolism, Low Density Lipoprotein Receptor-Related Protein-2 antagonists & inhibitors, Low Density Lipoprotein Receptor-Related Protein-2 genetics, Low Density Lipoprotein Receptor-Related Protein-2 metabolism, Male, Metallothionein pharmacology, Metallothionein therapeutic use, Nerve Tissue Proteins antagonists & inhibitors, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Peripheral Nerves cytology, Peripheral Nerves drug effects, Peripheral Nervous System Diseases drug therapy, Peripheral Nervous System Diseases physiopathology, RNA Interference, Rabbits, Rats, Sprague-Dawley, Axons physiology, Low Density Lipoprotein Receptor-Related Protein-1 agonists, Low Density Lipoprotein Receptor-Related Protein-2 agonists, Nerve Regeneration drug effects, Nerve Tissue Proteins agonists, Neurogenesis drug effects, Peripheral Nerves physiology

Abstract

The low-density lipoprotein receptor-related protein receptors 1 and 2 (LRP1 and LRP2) are emerging as important cell signaling mediators in modulating neuronal growth and repair. We examined whether LRP1 and LRP2 are able to mediate a specific aspect of neuronal growth: axon guidance. We sought to identify LRP1 and LRP2 ligands that could induce axonal chemoattraction, which might have therapeutic potential. Using embryonic sensory neurons (rat dorsal root ganglia) in a growth cone turning assay, we tested a range of LRP1 and LRP2 ligands for the ability to guide growth cone navigation. Three ligands were chemorepulsive: α-2-macroglobulin, tissue plasminogen activator, and metallothionein III. Conversely, only one LRP ligand, metallothionein II, was found to be chemoattractive. Chemoattraction toward a gradient of metallothionein II was calcium-dependent, required the expression of both LRP1 and LRP2, and likely involves further co-receptors such as the tropomyosin-related kinase A (TrkA) receptor. The potential for LRP-mediated chemoattraction to mediate axonal regeneration was examined in vivo in a model of chemical denervation in adult rats. In these in vivo studies, metallothionein II was shown to enhance epidermal nerve fiber regeneration so that it was complete within 7 days compared with 14 days in saline-treated animals. Our data demonstrate that both LRP1 and LRP2 are necessary for metallothionein II-mediated chemotactic signal transduction and that they may form part of a signaling complex. Furthermore, the data suggest that LRP-mediated chemoattraction represents a novel, non-classical signaling system that has therapeutic potential as a disease-modifying agent for the injured peripheral nervous system., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2016

33. The degree of astrocyte activation in multiple system atrophy is inversely proportional to the distance to α-synuclein inclusions.

Author

Radford R, Rcom-H'cheo-Gauthier A, Wong MB, Eaton ED, Quilty M, Blizzard C, Norazit A, Meedeniya A, Vickers JC, Gai WP, Guillemin GJ, West AK, Dickson TC, Chung R, and Pountney DL

Subjects

Aged, Animals, Astrocytes drug effects, Cells, Cultured, Humans, Mice, Mice, Inbred C57BL, Rats, Rats, Wistar, alpha-Synuclein pharmacology, Astrocytes metabolism, Inclusion Bodies metabolism, Multiple System Atrophy metabolism, alpha-Synuclein metabolism

Abstract

Multiple system atrophy (MSA) exhibits widespread astrogliosis together with α-synuclein (α-syn) glial cytoplasmic inclusions (GCIs) in mature oligodendrocytes. We quantified astrocyte activation by morphometric analysis of MSA cases, and investigated the correlation to GCI proximity. Using Imaris software, we obtained "skinned" three-dimensional models of GFAP-positive astrocytes in MSA and control tissue (n=75) from confocal z-stacks and measured the astrocyte process length and thickness and radial distance to the GCI. Astrocytes proximal to GCI-containing oligodendrocytes (r<25μm) had significantly (p, 0.05) longer and thicker processes characteristic of activation than distal astrocytes (r>25μm), with a reciprocal linear correlation (m, 90μm(2)) between mean process length and radial distance to the nearest GCI (R(2), 0.7). In primary cell culture studies, α-syn addition caused ERK-dependent activation of rat astrocytes and perinuclear α-syn inclusions in mature (MOSP-positive) rat oligodendrocytes. Activated astrocytes were also observed in close proximity to α-syn deposits in a unilateral rotenone-lesion mouse model. Moreover, unilateral injection of MSA tissue-derived α-syn into the mouse medial forebrain bundle resulted in widespread neuroinflammation in the α-syn-injected, but not sham-injected hemisphere. Taken together, our data suggests that the action of localized concentrations of α-syn may underlie both astrocyte and oligodendrocyte MSA pathological features., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

34. Microglia and motor neurons during disease progression in the SOD1G93A mouse model of amyotrophic lateral sclerosis: changes in arginase1 and inducible nitric oxide synthase.

Author

Lewis KE, Rasmussen AL, Bennett W, King A, West AK, Chung RS, and Chuah MI

Subjects

Age Factors, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis mortality, Amyotrophic Lateral Sclerosis physiopathology, Animals, Arginase genetics, Body Weight genetics, Disease Models, Animal, Disease Progression, Female, Mice, Mice, Inbred C57BL, Mice, Transgenic, Muscle Strength genetics, Nitric Oxide Synthase Type II genetics, Psychomotor Performance physiology, Spinal Cord pathology, Superoxide Dismutase genetics, Ubiquitin metabolism, Amyotrophic Lateral Sclerosis pathology, Arginase metabolism, Gene Expression Regulation genetics, Microglia metabolism, Motor Neurons metabolism, Nitric Oxide Synthase Type II metabolism

Abstract

Background: Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease affecting the motor system. Although the etiology of the disease is not fully understood, microglial activation and neuroinflammation are thought to play a role in disease progression., Methods: We examined the immunohistochemical expression of two markers of microglial phenotype, the arginine-metabolizing enzymes inducible nitric oxide synthase (iNOS) and arginase1 (Arg1), in the spinal cord of a mouse model carrying an ALS-linked mutant human superoxide dismutase transgene (SOD1(G93A)) and in non-transgenic wild-type (WT) mice. Immunolabeling for iNOS and Arg1 was evaluated throughout disease progression (6 to 25 weeks), and correlated with body weight, stride pattern, wire hang duration and ubiquitin pathology. For microglia and motor neuron counts at each time point, SOD1(G93A) and WT animals were compared using an independent samples t-test. A Welch t-test correction was applied if Levene's test showed that the variance in WT and SOD1G93A measurements was substantially different., Results: Disease onset, measured as the earliest change in functional parameters compared to non-transgenic WT mice, occurred at 14 weeks of age in SOD1(G93A) mice. The ventral horn of the SOD1(G93A) spinal cord contained more microglia than WT from 14 weeks onwards. In SOD1(G93A) mice, Arg1-positive and iNOS-positive microglia increased 18-fold and 7-fold, respectively, between 10 and 25 weeks of age (endpoint) in the lumbar spinal cord, while no increase was observed in WT mice. An increasing trend of Arg1- and iNOS-expressing microglia was observed in the cervical spinal cords of SOD1(G93A) mice. Additionally, Arg1-negative motor neurons appeared to selectively decline in the spinal cord of SOD1(G93A) mice, suggesting that Arg1 may have a neuroprotective function., Conclusions: This study suggests that the increase in spinal cord microglia occurs around and after disease onset and is preceded by cellular pathology. The results show that Arg1 and iNOS, thought to have opposing inflammatory properties, are upregulated in microglia during disease progression and that Arg1 in motor neurons may confer protection from disease processes. Further understanding of the neuroinflammatory response, and the Arg1/iNOS balance in motor neurons, may provide suitable therapeutic targets for ALS.

Published

2014

35. Intracellular dialysis disrupts Zn2+ dynamics and enables selective detection of Zn2+ influx in brain slice preparations.

Author

Aiba I, West AK, Sheline CT, and Shuttleworth CW

Subjects

Animals, Carrier Proteins genetics, Cation Transport Proteins, Cations, Divalent, Female, In Vitro Techniques, Intracellular Space metabolism, Male, Membrane Proteins genetics, Membrane Transport Proteins, Mice, Mice, Inbred C57BL, Mice, Knockout, Microdialysis, Neurons metabolism, Oxidation-Reduction, Patch-Clamp Techniques, Synapses metabolism, Brain metabolism, Zinc metabolism

Abstract

We examined the impact of intracellular dialysis on fluorescence detection of neuronal intracellular Zn(2+) accumulation. Comparison between two dialysis conditions (standard; 20 min, brief; 2 min) by standard whole-cell clamp revealed a high vulnerability of intracellular Zn(2+) buffers to intracellular dialysis. Thus, low concentrations of zinc-pyrithione generated robust responses in neurons with standard dialysis, but signals were smaller in neurons with short dialysis. Release from oxidation-sensitive Zn(2+) pools was reduced by standard dialysis, when compared with responses in neurons with brief dialysis. The dialysis effects were partly reversed by inclusion of recombinant metallothionein-3 in the dialysis solution. These findings suggested that extensive dialysis could be exploited for selective detection of transmembrane Zn(2+) influx. Different dialysis conditions were then used to probe responses to synaptic stimulation. Under standard dialysis conditions, synaptic stimuli generated significant FluoZin-3 signals in wild-type (WT) preparations, but responses were almost absent in preparations lacking vesicular Zn(2+) (ZnT3-KO). In contrast, under brief dialysis conditions, intracellular Zn(2+) transients were very similar in WT and ZnT3-KO preparations. This suggests that both intracellular release and transmembrane flux can contribute to intracellular Zn(2+) accumulation after synaptic stimulation. These results demonstrate significant confounds and potential use of intracellular dialysis to investigate intracellular Zn(2+) accumulation mechanisms., (© 2013 International Society for Neurochemistry.)

Published

2013

36. Distribution of exogenous metallothionein following intraperitoneal and intramuscular injection of metallothionein-deficient mice.

Author

Lewis KE, Chung RS, West AK, and Chuah MI

Subjects

Animals, Blood-Brain Barrier metabolism, Brain metabolism, Injections, Intramuscular, Injections, Intraperitoneal, Kidney drug effects, Metallothionein administration & dosage, Mice, Mice, Knockout, Kidney metabolism, Metallothionein genetics, Metallothionein pharmacokinetics

Abstract

Metallothionein-I/II (MT-I/II) is a small metal-binding protein with antioxidant and neuroprotective properties, which has been used experimentally as a neurotherapeutic agent in multiple conditions. Therefore it is important to determine whether exogenous MT-I/II is retained in specific organs or expelled from the body following intramuscular and intraperitoneal injection. The distribution of exogenous MT-IIA (the major human MT-I/II isoform) was examined in MT-I/II-deficient mice, by immunohistochemistry of tissue samples and western blotting of urine samples. MT-IIA was detected within epithelial cells of the kidney cortical and medullary tubules within 1 hour of either intramuscular or intraperitoneal injection. Additionally, MT-IIA was detected within the urine at 1 hour after injection, indicating rapid absorbance into the circulation and filtration through the kidney glomerulus. A portion of the intramuscularly-injected MT-IIA remained within the muscle for at least 24 hours after injection. No MT-IIA was observed within the liver or the brain after either a single injection or a series of MT-IIA injections. These results are consistent with earlier reports that exogenously administered MT-IIA does not cross the intact blood-brain barrier, although a receptor for MT-I/II (megalin) is present in the choroid plexus. We postulate that due to losses through the urine, circulating MT-IIA levels drop rapidly after injection and do not permit transport across the choroid plexus. Peptide analogues of MT-I/II with similar neuroactive properties (emtins) may be more suited for CNS delivery.

Published

2012

37. Redox-active Cu(II)-Aβ causes substantial changes in axonal integrity in cultured cortical neurons in an oxidative-stress dependent manner.

Author

Howells C, Saar K, Eaton E, Ray S, Palumaa P, Shabala L, Adlard PA, Bennett W, West AK, Guillemin GJ, and Chung RS

Subjects

Alzheimer Disease metabolism, Alzheimer Disease pathology, Amyloid beta-Peptides chemistry, Amyloid beta-Peptides metabolism, Animals, Blotting, Western, Cells, Cultured, Cerebral Cortex drug effects, Cerebral Cortex pathology, Copper chemistry, Copper metabolism, Immunohistochemistry, Neurons drug effects, Neurons pathology, Oxidation-Reduction, Rats, Rats, Wistar, Amyloid beta-Peptides toxicity, Axons drug effects, Axons pathology, Copper toxicity, Oxidative Stress physiology

Abstract

Background: The beta-amyloid (Aβ) peptide comprises the amyloid plaques that characterise Alzheimer's disease (AD), and is thought to significantly contribute towards disease pathogenesis. Oxidative stress is elevated in the AD brain, and there is substantial evidence that the interaction between Aβ and redox-active copper is a major contributing factor towards oxidative stress in AD., Results: The major findings of this study are that redox-active Cu(II)-Aβ causes pronounced axonal pathology in long-term neuronal cultures, including axonal fragmentation and the formation of hyperphosphorylated tau-immunoreactive axonal swellings. Notably, MAP-2 expressing dendritic processes remain largely un-affected by Cu(II)-Aβ treatment. These dystrophic axonal manifestations resemble some of the characteristic neuritic pathology of the AD brain. We show that Cu(II)-Aβ directly causes formation of intra-axonal swellings via the generation of free radicals and subsequent efflux of K+ out of neurons., Conclusion: In summary, we report that redox-active Cu(II)-Aβ can induce substantial neurodegenerative changes in mature neurons, and may have an important role to play in the slowly progressing pathogenesis of AD., (Crown Copyright © 2012. Published by Elsevier Inc. All rights reserved.)

Published

2012

38. Cytokines and olfactory bulb microglia in response to bacterial challenge in the compromised primary olfactory pathway.

Author

Herbert RP, Harris J, Chong KP, Chapman J, West AK, and Chuah MI

Subjects

Animals, Immunocompromised Host, Male, Mice, Mice, Inbred C57BL, Microglia metabolism, Microglia microbiology, Olfactory Bulb immunology, Olfactory Bulb metabolism, Olfactory Mucosa immunology, Olfactory Mucosa metabolism, Olfactory Mucosa microbiology, Olfactory Pathways metabolism, Random Allocation, Cytokines physiology, Microglia immunology, Olfactory Bulb microbiology, Olfactory Pathways immunology, Olfactory Pathways microbiology, Staphylococcus aureus immunology, Staphylococcus aureus pathogenicity

Abstract

Background: The primary olfactory pathway is a potential route through which microorganisms from the periphery could potentially access the central nervous system. Our previous studies demonstrated that if the olfactory epithelium was damaged, bacteria administered into the nasal cavity induced nitric oxide production in olfactory ensheathing cells. This study investigates the cytokine profile of olfactory tissues as a consequence of bacterial challenge and establishes whether or not the bacteria are able to reach the olfactory bulb in the central nervous system., Methods: The olfactory epithelium of C57BL/6 mice was damaged by unilateral Triton X-100 nasal washing, and Staphylococcus aureus was administered ipsilaterally 4 days later. Olfactory mucosa and bulb were harvested 6 h, 24 h and 5 days after inoculation and their cytokine profile compared to control tissues. The fate of S. aureus and the response of bulbar microglia were examined using fluorescence microscopy and transmission electron microscopy., Results: In the olfactory mucosa, administered S. aureus was present in supporting cells of the olfactory epithelium, and macrophages and olfactory nerve bundles in the lamina propria. Fluorescein isothiocyanate-conjugated S. aureus was observed within the olfactory mucosa and bulb 6 h after inoculation, but remained restricted to the peripheral layers up to 5 days later. At the 24-h time point, the level of interleukin-6 (IL-6) and tumour necrosis factor-α in the compromised olfactory tissues challenged with bacteria (12,466 ± 956 pg/ml and 552 ± 193 pg/ml, respectively) was significantly higher than that in compromised olfactory tissues alone (6,092 ± 1,403 pg/ml and 80 ± 2 pg/ml, respectively). Immunohistochemistry confirmed that IL-6 was present in several cell types including olfactory ensheathing cells and mitral cells of the olfactory bulb. Concurrently, there was a 4.4-, 4.5- and 2.8-fold increase in the density of iNOS-expressing cells in the olfactory mucosa, olfactory nerve and glomerular layers combined, and granule layer of the olfactory bulb, respectively., Conclusions: Bacteria are able to penetrate the immunological defence of the compromised olfactory mucosa and infiltrate the olfactory bulb within 6 h even though a proinflammatory profile is mounted. Activated microglia may have a role in restricting bacteria to the outer layers of the olfactory bulb.

Published

2012

39. Burn injury has a systemic effect on reinnervation of skin and restoration of nociceptive function.

Author

Morellini NM, Fear MW, Rea S, West AK, Wood FM, and Dunlop SA

Subjects

Animals, Disease Models, Animal, Immunohistochemistry, Mice, Mice, Inbred C57BL, Pain Measurement, Burns pathology, Burns physiopathology, Metallothionein pharmacology, Nociception, Skin innervation, Skin physiopathology, Wound Healing drug effects

Abstract

Burn injury can lead to abnormal sensory function at both the injury and at distant uninjured sites. Here, we used a mouse model to investigate return of nociceptive function and reinnervation of the skin at the wound and uninjured distant sites following a 3% total burn surface area full-thickness burn injury. We have previously shown that topical application of zinc-metallothionein-IIA (Zn(7) -MT-IIA) accelerates healing following burn injury, and here, we investigated the potential of Zn(7) -MT-IIA to enhance reinnervation and sensory recovery. In all burn-injured animals, there was a significant reduction in nociceptive responses (Semmes-Weinstein filaments) at locations near and distant to the wound up to 8 weeks following injury. Cutaneous nerve reinnervation (assessed using protein gene product 9.5 immunohistochemistry) of the wound center was slow in the epidermis but rapid in the dermis. In the dermis, nerves subsequently degenerated both at the wound center and in distant uninjured areas. In contrast, epidermal nerve densities in the distant uninjured areas returned to normal, uninjured levels. Zn(7) -MT-IIA did not influence return of nociceptive function nor reinnervation. We conclude that burn injury compromises nociceptive function and nerve regeneration both at the injury site and systemically; thus, therapies in addition to Zn(7) -MT-IIA should be explored to return normal sensory function., (© 2012 by the Wound Healing Society.)

Published

2012

40. Transcriptional insights on the regenerative mechanics of axotomized neurons in vitro.

Author

Ng JM, Chen MJ, Leung JY, Peng ZF, Manikandan J, Qi RZ, Chuah MI, West AK, Vickers JC, Lu J, Cheung NS, and Chung RS

Subjects

Animals, Cells, Cultured, In Vitro Techniques, Oligonucleotide Array Sequence Analysis, Rats, Real-Time Polymerase Chain Reaction, Axons, Neurons chemistry, Regeneration, Transcription, Genetic

Abstract

Axotomized neurons have the innate ability to undergo regenerative sprouting but this is often impeded by the inhibitory central nervous system environment. To gain mechanistic insights into the key molecular determinates that specifically underlie neuronal regeneration at a transcriptomic level, we have undertaken a DNA microarray study on mature cortical neuronal clusters maintained in vitro at 8, 15, 24 and 48 hrs following complete axonal severance. A total of 305 genes, each with a minimum fold change of ± 1.5 for at least one out of the four time points and which achieved statistical significance (one-way ANOVA, P < 0.05), were identified by DAVID and classified into 14 different functional clusters according to Gene Ontology. From our data, we conclude that post-injury regenerative sprouting is an intricate process that requires two distinct pathways. Firstly, it involves restructuring of the neurite cytoskeleton, determined by compound actin and microtubule dynamics, protein trafficking and concomitant modulation of both guidance cues and neurotrophic factors. Secondly, it elicits a cell survival response whereby genes are regulated to protect against oxidative stress, inflammation and cellular ion imbalance. Our data reveal that neurons have the capability to fight insults by elevating biological antioxidants, regulating secondary messengers, suppressing apoptotic genes, controlling ion-associated processes and by expressing cell cycle proteins that, in the context of neuronal injury, could potentially have functions outside their normal role in cell division. Overall, vigilant control of cell survival responses against pernicious secondary processes is vital to avoid cell death and ensure successful neurite regeneration., (© 2011 The Authors Journal of Cellular and Molecular Medicine © 2011 Foundation for Cellular and Molecular Medicine/Blackwell Publishing Ltd.)

Published

2012

41. Metallothionein promotes regenerative axonal sprouting of dorsal root ganglion neurons after physical axotomy.

Author

Leung JY, Bennett WR, Herbert RP, West AK, Lee PR, Wake H, Fields RD, Chuah MI, and Chung RS

Subjects

Animals, Axons drug effects, Axotomy, Cells, Cultured, Enzyme Inhibitors pharmacology, Flavonoids pharmacology, Ganglia, Spinal cytology, Ganglia, Spinal metabolism, Mice, Mitogen-Activated Protein Kinases antagonists & inhibitors, Mitogen-Activated Protein Kinases metabolism, Neurons drug effects, Axons physiology, Ganglia, Spinal pathology, Metallothionein pharmacology, Nerve Regeneration, Neurons metabolism

Abstract

Prior studies have reported that metallothionein I/II (MT) promote regenerative axonal sprouting and neurite elongation of a variety of central nervous system neurons after injury. In this study, we evaluated whether MT is capable of modulating regenerative axon outgrowth of neurons from the peripheral nervous system. The effect of MT was firstly investigated in dorsal root ganglion (DRG) explants, where axons were scratch-injured in the presence or absence of exogenous MT. The application of MT led to a significant increase in regenerative sprouting of neurons 16 h after injury. We show that the pro-regenerative effect of MT involves an interaction with the low-density lipoprotein receptor megalin, which could be blocked using the competitive antagonist RAP. Pre-treatment with the mitogen-activated protein kinase (MAPK) inhibitor PD98059 also completely abrogated the effect of exogenous MT in promoting axonal outgrowth. Interestingly, we only observed megalin expression in neuronal soma and not axons in the DRG explants. To investigate this matter, an in vitro injury model was established using Campenot chambers, which allowed the application of MT selectively into either the axonal or cell body compartments after scratch injury was performed to axons. At 16 h after injury, regenerating axons were significantly longer only when exogenous MT was applied solely to the soma compartment, in accordance with the localized expression of megalin in neuronal cell bodies. This study provides a clear indication that MT promotes axonal regeneration of DRG neurons, via a megalin- and MAPK-dependent mechanism., (© Springer Basel AG 2011)

Published

2012

42. Metallothionein (MT) -I and MT-II expression are induced and cause zinc sequestration in the liver after brain injury.

Author

Pankhurst MW, Gell DA, Butler CW, Kirkcaldie MT, West AK, and Chung RS

Subjects

Animals, Antibodies immunology, Brain metabolism, Brain pathology, Brain Injuries blood, Brain Injuries genetics, Cold Temperature, Corticosterone blood, Enzyme-Linked Immunosorbent Assay, Gene Expression Regulation, Liver pathology, Logistic Models, Metallothionein genetics, Metallothionein immunology, Mice, RNA, Messenger genetics, RNA, Messenger metabolism, Radioimmunoassay, Reference Standards, Reproducibility of Results, Spectrophotometry, Atomic, Tissue Extracts, Brain Injuries pathology, Liver metabolism, Metallothionein metabolism, Zinc metabolism

Abstract

Unlabelled: Experiments with transgenic over-expressing, and null mutant mice have determined that metallothionein-I and -II (MT-I/II) are protective after brain injury. MT-I/II is primarily a zinc-binding protein and it is not known how it provides neuroprotection to the injured brain or where MT-I/II acts to have its effects. MT-I/II is often expressed in the liver under stressful conditions but to date, measurement of MT-I/II expression after brain injury has focused primarily on the injured brain itself. In the present study we measured MT-I/II expression in the liver of mice after cryolesion brain injury by quantitative reverse-transcriptase PCR (RT-PCR) and enzyme-linked immunosorbent assay (ELISA) with the UC1MT antibody. Displacement curves constructed using MT-I/II knockout (MT-I/II(-/-)) mouse tissues were used to validate the ELISA. Hepatic MT-I and MT-II mRNA levels were significantly increased within 24 hours of brain injury but hepatic MT-I/II protein levels were not significantly increased until 3 days post injury (DPI) and were maximal at the end of the experimental period, 7 DPI. Hepatic zinc content was measured by atomic absorption spectroscopy and was found to decrease at 1 and 3 DPI but returned to normal by 7DPI. Zinc in the livers of MT-I/II(-/-) mice did not show a return to normal at 7 DPI which suggests that after brain injury, MT-I/II is responsible for sequestering elevated levels of zinc to the liver., Conclusion: MT-I/II is up-regulated in the liver after brain injury and modulates the amount of zinc that is sequestered to the liver.

Published

2012

43. New strategies in neuroprotection and neurorepair.

Author

Antonelli MC, Guillemin GJ, Raisman-Vozari R, Del-Bel EA, Aschner M, Collins MA, Tizabi Y, Moratalla R, and West AK

Subjects

Central Nervous System drug effects, Metallothionein analysis, Nerve Regeneration, Neuroglia metabolism, Neuroprotective Agents pharmacology, Substance-Related Disorders metabolism, Metallothionein metabolism, Neuroprotective Agents metabolism, Neurotoxins toxicity, Oxidative Stress physiology

Abstract

There are currently few clinical strategies in place, which provide effective neuroprotection and repair, despite an intense international effort over the past decades. One possible explanation for this is that a deeper understanding is required of how endogenous mechanisms act to confer neuroprotection. This mini-review reports the proceedings of a recent workshop "Neuroprotection and Neurorepair: New Strategies" (Iguazu Falls, Misiones, Argentina, April 11-13, 2011, Satellite Symposium of the V Neurotoxicity Society Meeting, 2011) in which four areas of active research were identified to have the potential to generate new insights into this field. Topics discussed were (i) metallothionein and other multipotent neuroprotective molecules; (ii) oxidative stress and their signal mediated pathways in neuroregeneration; (iii) neurotoxins in glial cells, and (iv) drugs of abuse with neuroprotective effects.

Published

2012

44. Increased circulating leukocyte numbers and altered macrophage phenotype correlate with the altered immune response to brain injury in metallothionein (MT)-I/II null mutant mice.

Author

Pankhurst MW, Bennett W, Kirkcaldie MT, West AK, and Chung RS

Subjects

Animals, Astrocytes metabolism, Brain Injuries blood, Chemokines immunology, Cytokines immunology, Leukocyte Count, Macrophages cytology, Male, Metallothionein genetics, Mice, Mice, Knockout, Neurons metabolism, Neurons pathology, Neuroprotective Agents metabolism, Brain Injuries immunology, Brain Injuries pathology, Leukocytes immunology, Macrophages immunology, Metallothionein immunology

Abstract

Background: Metallothionein-I and -II (MT-I/II) is produced by reactive astrocytes in the injured brain and has been shown to have neuroprotective effects. The neuroprotective effects of MT-I/II can be replicated in vitro which suggests that MT-I/II may act directly on injured neurons. However, MT-I/II is also known to modulate the immune system and inflammatory processes mediated by the immune system can exacerbate brain injury. The present study tests the hypothesis that MT-I/II may have an indirect neuroprotective action via modulation of the immune system., Methods: Wild type and MT-I/II(-/-) mice were administered cryolesion brain injury and the progression of brain injury was compared by immunohistochemistry and quantitative reverse-transcriptase PCR. The levels of circulating leukocytes in the two strains were compared by flow cytometry and plasma cytokines were assayed by immunoassay., Results: Comparison of MT-I/II(-/-) mice with wild type controls following cryolesion brain injury revealed that the MT-I/II(-/-) mice only showed increased rates of neuron death after 7 days post-injury (DPI). This coincided with increases in numbers of T cells in the injury site, increased IL-2 levels in plasma and increased circulating leukocyte numbers in MT-I/II(-/-) mice which were only significant at 7 DPI relative to wild type mice. Examination of mRNA for the marker of alternatively activated macrophages, Ym1, revealed a decreased expression level in circulating monocytes and brain of MT-I/II(-/-) mice that was independent of brain injury., Conclusions: These results contribute to the evidence that MT-I/II(-/-) mice have altered immune system function and provide a new hypothesis that this alteration is partly responsible for the differences observed in MT-I/II(-/-) mice after brain injury relative to wild type mice.

Published

2011

45. Neuroprotection and regeneration by extracellular metallothionein via lipoprotein-receptor-related proteins.

Author

West AK, Leung JY, and Chung RS

Subjects

Animals, Humans, Extracellular Space metabolism, Low Density Lipoprotein Receptor-Related Protein-1 metabolism, Metallothionein metabolism, Nervous System cytology, Nervous System metabolism, Nervous System Physiological Phenomena, Regeneration

Abstract

Metallothionein has a well-documented protective and proregenerative effect in the mammalian brain, particularly following physical trauma and ischemia or during the onset of neurodegenerative disease. A range of mechanisms have been established for this, including metallothionein's metal binding properties and its ability to scavenge free radicals. In recent years it has become apparent that metallothionein is present in the extracellular compartment of the central nervous system and that it can interact with cell surface receptors of the lipoprotein-receptor-related protein family, including lipoprotein-receptor-related protein 1 (LRP1) and megalin. These interactions activate intracellular pathways which are consistent with many of the observed effects of metallothionein in the central nervous system, including its effects on neurons, glial cells, and cells of the immune system. The evidence describing the release, receptor interactions, and subsequent physiological consequences of metallothionein is discussed in this review.

Published

2011

46. Interaction of olfactory ensheathing cells with other cell types in vitro and after transplantation: glial scars and inflammation.

Author

Chuah MI, Hale DM, and West AK

Subjects

Animals, Astrocytes metabolism, Astrocytes pathology, Cell Transplantation methods, Cell Transplantation pathology, Cells, Cultured, Cicatrix metabolism, Cicatrix pathology, Coculture Techniques, Humans, Neuroglia metabolism, Olfactory Bulb metabolism, Spinal Cord Injuries pathology, Spinal Cord Injuries surgery, Cicatrix surgery, Nerve Regeneration physiology, Neuroglia pathology, Olfactory Bulb pathology, Olfactory Bulb transplantation

Abstract

Olfactory ensheathing cells (OECs) have been investigated extensively as a therapy to promote repair in the injured CNS, with variable efficacy in numerous studies over the previous decade. In many studies that report anatomical and functional recovery, the beneficial effects have been attributed to the ability of OECs to cross the PNS-CNS boundary, their production of growth factors, cell adhesion molecules and extracellular matrix proteins that promote and guide axon growth, and their ability to remyelinate axons. In this brief review, we focus on the interaction between OECs and astrocytes in vivo and in vitro, in the context of how OECs may be overcoming the deleterious effects of the glial scar. Drawing from a selection of different experimental models of spinal injury, we discuss the morphological alterations of the glial scar associated with OEC transplants, and the in vitro research that has begun to elucidate the interaction between OECs and the cell types that compose the glial scar. We also discuss recent research showing that OECs bear properties of immune cells and the consequent implication that they may modulate neuroinflammation when transplanted into CNS injury sites. Future studies in unraveling the molecular interaction between OECs and other glial cells may help explain some of the variability in outcomes when OECs are used as transplants in CNS injury and more importantly, contribute to the optimization of OECs as a cell-based therapy for CNS injury. This article is part of a Special Issue entitled: Understanding olfactory ensheathing glia and their prospect for nervous system repair., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

47. Tg2576 cortical neurons that express human Ab are susceptible to extracellular Aβ-induced, K+ efflux dependent neurodegeneration.

Author

Ray S, Howells C, Eaton ED, Butler CW, Shabala L, Adlard PA, West AK, Bennett WR, Guillemin GJ, and Chung RS

Subjects

Animals, Axons, Cells, Cultured, Cerebral Cortex cytology, Humans, Ion Transport, Male, Mice, Mice, Transgenic, Microelectrodes, Neurons pathology, Amyloid beta-Peptides metabolism, Cerebral Cortex metabolism, Neurons metabolism, Potassium metabolism

Abstract

Background: One of the key pathological features of AD is the formation of insoluble amyloid plaques. The major constituent of these extracellular plaques is the beta-amyloid peptide (Aβ), although Aβ is also found to accumulate intraneuronally in AD. Due to the slowly progressive nature of the disease, it is likely that neurons are exposed to sublethal concentrations of both intracellular and extracellular Aβ for extended periods of time., Results: In this study, we report that daily exposure to a sublethal concentration of Aβ(1-40) (1 µM) for six days induces substantial apoptosis of cortical neurons cultured from Tg2576 mice (which express substantial but sublethal levels of intracellular Aβ). Notably, untreated Tg2576 neurons of similar age did not display any signs of apoptosis, indicating that the level of intracellular Aβ present in these neurons was not the cause of toxicity. Furthermore, wildtype neurons did not become apoptotic under the same chronic Aβ(1-40) treatment. We found that this apoptosis was linked to Tg2576 neurons being unable to maintain K(+) homeostasis following Aβ treatment. Furthermore, blocking K(+) efflux protected Tg2576 neurons from Aβ-induced neurotoxicity. Interestingly, chronic exposure to 1 µM Aβ(1-40) caused the generation of axonal swellings in Tg2576 neurons that contained dense concentrations of hyperphosphorylated tau. These were not observed in wildtype neurons under the same treatment conditions., Conclusions: Our data suggest that when neurons are chronically exposed to sublethal levels of both intra- and extra-cellular Aβ, this causes a K(+)-dependent neurodegeneration that has pathological characteristics similar to AD.

Published

2011

48. Olfactory ensheathing cells moderate nuclear factor kappaB translocation in astrocytes.

Author

Hale DM, Ray S, Leung JY, Holloway AF, Chung RS, West AK, and Chuah MI

Subjects

Animals, Astrocytes cytology, Astrocytes drug effects, Calcium metabolism, Cell Nucleus metabolism, Cells, Cultured, Coculture Techniques, Fibroblasts cytology, Fibroblasts drug effects, Fibroblasts physiology, Granulocyte-Macrophage Colony-Stimulating Factor genetics, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Insulin-Like Growth Factor I metabolism, Ionophores pharmacology, Meninges cytology, Microglia cytology, Microglia drug effects, Microglia physiology, Protein Transport physiology, Rats, Rats, Wistar, Schwann Cells cytology, Tetradecanoylphorbol Acetate pharmacology, Astrocytes metabolism, NF-kappa B metabolism, Schwann Cells physiology

Abstract

Nuclear factor kappaB (NFκB) is a key transcriptional regulator of inflammatory genes. We investigated the modulatory effects of olfactory ensheathing cells (OECs), microglia and meningeal fibroblasts on translocation of NFκB to astrocyte nuclei. The percentage of activated astrocytes in co-cultures with OECs was significantly less than for co-cultures with microglia (p<0.001) and fibroblasts (p<0.05). Phorbol myristate acetate (PMA) and calcium ionophore stimulation of p65 NFκB translocation to nuclei provided an in vitro model of astrocyte inflammatory activation. Soluble factors released by OECs significantly moderated the astrocytic NFκB translocation induced by either PMA/calcium ionophore or microglia-derived factors (p<0.001). Insulin-like growth factor-1 may contribute to these effects, since it is expressed by OECs and also significantly moderated the astrocytic NFκB translocation (p<0.05), albeit insufficiently to fully account for the OEC-induced moderation (p<0.01). Olfactory ensheathing cells significantly moderated the increased transcription of the pro-inflammatory cytokine, granulocyte macrophage-colony stimulating factor in the activated astrocytes (p<0.01). These results suggest that transplanted OECs could improve neural repair after CNS injury by moderating astrocyte activation., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

49. Prolonged Abeta treatment leads to impairment in the ability of primary cortical neurons to maintain K+ and Ca2+ homeostasis.

Author

Shabala L, Howells C, West AK, and Chung RS

Abstract

Background: Alzheimer's disease (AD) is a progressive neurodegenerative disease, characterised by the formation of insoluble amyloidogenic plaques and neurofibrillary tangles. Beta amyloid (Abeta) peptide is one of the main constituents in Abeta plaques, and is thought to be a primary causative agent in AD. Neurons are likely to be exposed to chronic, sublethal doses of Abeta over an extended time during the pathogenesis of AD, however most studies published to date using in vitro models have focussed on acute studies. To experimentally model the progressive pathogenesis of AD, we exposed primary cortical neurons daily to 1 muM of Abeta1-40 over 7 days and compared their survival with age-similar untreated cells. We also investigated whether chronic Abeta exposure affects neuronal susceptibility to the subsequent acute excitotoxicity induced by 10 muM glutamate and assessed how Ca2+ and K+ homeostasis were affected by either treatment., Results: We show that continuous exposure to 1 muM Abeta1-40 for seven days decreased survival of cultured cortical neurons by 20%. This decrease in survival correlated with increased K+ efflux from the cells. One day treatment with 1 muM Abeta followed by glutamate led to a substantially higher K+ efflux than in the age-similar untreated control. This difference further increased with the duration of the treatment. K+ efflux also remained higher in Abeta treated cells 20 min after glutamate application leading to 2.8-fold higher total K+ effluxed from the cells compared to controls. Ca2+ uptake was significantly higher only after prolonged Abeta treatment with 2.5-fold increase in total Ca2+ uptake over 20 min post glutamate application after six days of Abeta treatment or longer (P < 0.05)., Conclusions: Our data suggest that long term exposure to Abeta is detrimental because it reduces the ability of cortical neurons to maintain K+ and Ca2+ homeostasis in response to glutamate challenge, a response that might underlie the early symptoms of AD. The observed inability to maintain K+ homeostasis might furthermore be useful in future studies as an early indicator of pathological changes in response to Abeta.

Published

2010

50. The native copper- and zinc-binding protein metallothionein blocks copper-mediated Abeta aggregation and toxicity in rat cortical neurons.

Author

Chung RS, Howells C, Eaton ED, Shabala L, Zovo K, Palumaa P, Sillard R, Woodhouse A, Bennett WR, Ray S, Vickers JC, and West AK

Subjects

Amino Acid Sequence, Amyloid beta-Peptides chemistry, Animals, Cells, Cultured, Cerebral Cortex cytology, Humans, Metallothionein chemistry, Metallothionein metabolism, Molecular Sequence Data, Neurons metabolism, Protein Structure, Quaternary, Rats, Sodium Dodecyl Sulfate chemistry, Solubility, Amyloid beta-Peptides metabolism, Amyloid beta-Peptides toxicity, Copper metabolism, Metallothionein pharmacology, Neurons drug effects, Protein Multimerization drug effects, Zinc metabolism

Abstract

Background: A major pathological hallmark of AD is the deposition of insoluble extracellular beta-amyloid (Abeta) plaques. There are compelling data suggesting that Abeta aggregation is catalysed by reaction with the metals zinc and copper., Methodology/principal Findings: We now report that the major human-expressed metallothionein (MT) subtype, MT-2A, is capable of preventing the in vitro copper-mediated aggregation of Abeta1-40 and Abeta1-42. This action of MT-2A appears to involve a metal-swap between Zn7MT-2A and Cu(II)-Abeta, since neither Cu10MT-2A or carboxymethylated MT-2A blocked Cu(II)-Abeta aggregation. Furthermore, Zn7MT-2A blocked Cu(II)-Abeta induced changes in ionic homeostasis and subsequent neurotoxicity of cultured cortical neurons., Conclusions/significance: These results indicate that MTs of the type represented by MT-2A are capable of protecting against Abeta aggregation and toxicity. Given the recent interest in metal-chelation therapies for AD that remove metal from Abeta leaving a metal-free Abeta that can readily bind metals again, we believe that MT-2A might represent a different therapeutic approach as the metal exchange between MT and Abeta leaves the Abeta in a Zn-bound, relatively inert form.

Published

2010