Transplanting the leafy liverwort Herbertus hutchinsiae : A suitable conservation tool to maintain oceanic-montane liverwort-rich heath?

Thanks to the relevant landowners and managers for permission to carry out the experiments, Chris Preston for helping to obtain the liverwort distribution records and the distribution map, Gordon Rothero and Dave Horsfield for advice on choosing experimental sites and Alex Douglas for statistical advice. Juliane Geyer’s help with fieldwork was greatly appreciated. This study was made possible by a NERC PhD studentship and financial support from the Royal Botanic Garden Edinburgh and Scottish Natural Heritage.Peer reviewedPostprin

Globally rare oceanic-montane liverworts with disjunct distributions:evidence for long-distance dispersal

Disjunct distributions in bryophytes are well known, but when it comes to the mechanisms that have shaped these distributions, especially for apparently sterile species, the historical processes leading to inter-continental disjunctions remain enigmatic. In this study, we developed microsatellite markers to investigate the spatial distribution and extent of genotypic diversity of 147 Anastrophyllum alpinum samples collected from three populations each in Nepal and Scotland (UK). For a more general insight into genetic differences, sequence divergence in A. alpinum and eight other globally rare and disjunct oceanic-montane liverworts was also assessed. A nested allele distribution of Scottish populations of A. alpinum within the allele range of the Nepalese populations, and lower levels of genetic diversity within Scottish samples indicate that the Scottish populations likely have their origins in the Sino-Himalaya. The evidence for long-distance dispersal was supported by a lack of sequence divergence in chloroplast DNA between Scottish and Nepalese populations, with only a single substitution detected from 5160 bp of plastid sequence. Low levels of sequence divergence were also detected in species with similar distributions. While Scottish populations of A. alpinum do not appear to produce spores, they do still harbour a considerable genetic diversity. This indicates that sexual reproduction has been important at some point in their history. However, the current absence of evidence for sexual reproduction needs to be taken into account when designing conservation actions for these montane species, to ensure population maintenance and ability to track suitable climate and habitat space.</p

Optical Structural Analysis of Individual alpha-Synuclein Oligomers

Small aggregates of misfolded proteins play a key role in neurodegenerative disorders. Such species have proved difficult to study due to the lack of suitable methods capable of resolving these heterogeneous aggregates, which are smaller than the optical diffraction limit. We demonstrate here an all‐optical fluorescence microscopy method to characterise the structure of individual protein aggregates based on the fluorescence anisotropy of dyes such as thioflavin‐T, and show that this technology is capable of studying oligomers in human biofluids such as cerebrospinal fluid. We first investigated in vitro the structural changes in individual oligomers formed during the aggregation of recombinant α‐synuclein. By studying the diffraction‐limited aggregates we directly evaluated their structural conversion and correlated this with the potential of aggregates to disrupt lipid bilayers. We finally characterised the structural features of aggregates present in cerebrospinal fluid of Parkinson's disease patients and age‐matched healthy controls

A natural product inhibits the initiation of a-synuclein aggregation & suppresses its toxicity

The self-Assembly of a-synuclein is closely associated with Parkinson''s disease and related syndromes. We show that squalamine, a natural product with known anticancer and antiviral activity, dramatically affects a-synuclein aggregation in vitro and in vivo. We elucidate the mechanism of action of squalamine by investigating its interaction with lipid vesicles, which are known to stimulate nucleation, and find that this compound displaces a-synuclein from the surfaces of such vesicles, thereby blocking the first steps in its aggregation process. We also show that squalamine almost completely suppresses the toxicity of a-synuclein oligomers in human neuroblastoma cells by inhibiting their interactions with lipid membranes. We further examine the effects of squalamine in a Caenorhabditis elegans strain overexpressing a-synuclein, observing a dramatic reduction of a-synuclein aggregation and an almost complete elimination of muscle paralysis. These findings suggest that squalamine could be a means of therapeutic intervention in Parkinson''s disease and related conditions

A natural product inhibits the initiation of α-synuclein aggregation and suppresses its toxicity.

The self-assembly of α-synuclein is closely associated with Parkinson's disease and related syndromes. We show that squalamine, a natural product with known anticancer and antiviral activity, dramatically affects α-synuclein aggregation in vitro and in vivo. We elucidate the mechanism of action of squalamine by investigating its interaction with lipid vesicles, which are known to stimulate nucleation, and find that this compound displaces α-synuclein from the surfaces of such vesicles, thereby blocking the first steps in its aggregation process. We also show that squalamine almost completely suppresses the toxicity of α-synuclein oligomers in human neuroblastoma cells by inhibiting their interactions with lipid membranes. We further examine the effects of squalamine in a Caenorhabditis elegans strain overexpressing α-synuclein, observing a dramatic reduction of α-synuclein aggregation and an almost complete elimination of muscle paralysis. These findings suggest that squalamine could be a means of therapeutic intervention in Parkinson's disease and related conditions.This work was supported by the Intramural Research Program of the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), US National Institutes of Health (A.M. and A.B.); by the Boehringer Ingelheim Fonds (P.F.); by a European Research Council starting grant (to M.B.D.M. and E.A.A.N.); and by The Cambridge Centre for Misfolding Diseases. N.C. thanks the Spanish Ministry of Economy and Competitiveness (RYC-2012-12068). S.W.C. thanks the Agency for Science, Technology, and Research, Singapore for support

Screening of small molecules using the inhibition of oligomer formation in α-synuclein aggregation as a selection parameter

Abstract: The aggregation of α-synuclein is a central event in Parkinsons’s disease and related synucleinopathies. Since pharmacologically targeting this process, however, has not yet resulted in approved disease-modifying treatments, there is an unmet need of developing novel methods of drug discovery. In this context, the use of chemical kinetics has recently enabled accurate quantifications of the microscopic steps leading to the proliferation of protein misfolded oligomers. As these species are highly neurotoxic, effective therapeutic strategies may be aimed at reducing their numbers. Here, we exploit this quantitative approach to develop a screening strategy that uses the reactive flux toward α-synuclein oligomers as a selection parameter. Using this approach, we evaluate the efficacy of a library of flavone derivatives, identifying apigenin as a compound that simultaneously delays and reduces the formation of α-synuclein oligomers. These results demonstrate a compound selection strategy based on the inhibition of the formation of α-synuclein oligomers, which may be key in identifying small molecules in drug discovery pipelines for diseases associated with α-synuclein aggregation

Screening of small molecules using the inhibition of oligomer formation in α-synuclein aggregation as a selection parameter

Abstract: The aggregation of α-synuclein is a central event in Parkinsons’s disease and related synucleinopathies. Since pharmacologically targeting this process, however, has not yet resulted in approved disease-modifying treatments, there is an unmet need of developing novel methods of drug discovery. In this context, the use of chemical kinetics has recently enabled accurate quantifications of the microscopic steps leading to the proliferation of protein misfolded oligomers. As these species are highly neurotoxic, effective therapeutic strategies may be aimed at reducing their numbers. Here, we exploit this quantitative approach to develop a screening strategy that uses the reactive flux toward α-synuclein oligomers as a selection parameter. Using this approach, we evaluate the efficacy of a library of flavone derivatives, identifying apigenin as a compound that simultaneously delays and reduces the formation of α-synuclein oligomers. These results demonstrate a compound selection strategy based on the inhibition of the formation of α-synuclein oligomers, which may be key in identifying small molecules in drug discovery pipelines for diseases associated with α-synuclein aggregation