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151.
Patrick J. Hanley Zhuyong Mei Maria da Graca Cabreira-Hansen Mariola Klis Wei Li Yali Zhao April G. Durett Xingwu Zheng Yongping Wang Adrian P. Gee Edwin M. Horwitz 《Cytotherapy》2013,15(4):416-422
Mesenchymal stromal cells (MSCs) are multipotent progenitor cells capable of differentiating into adipocytes, osteoblasts and chondroblasts as well as secreting a vast array of soluble mediators. This potentially makes MSCs important mediators of a variety of therapeutic applications. They are actively under evaluation for immunomodulatory purposes such as graft-versus-host disease and Crohn’s disease as well as regenerative applications such as stroke and congestive heart failure. We report our method of generating clinical-grade MSCs together with suggestions gathered from manufacturing experience in our Good Manufacturing Practices facility. 相似文献
152.
Brenda J. Hanley André A. Dhondt María J. Forzán Elizabeth M. Bunting Mark A. Pokras Kevin P. Hynes Ernesto Dominguez-Villegas Krysten L. Schuler 《The Journal of wildlife management》2022,86(2):e22177
Bald eagles (Haliaeetus leucocephalus) are considered a recovery success in the United States after rebounding from near extirpation due to widespread use of the insecticide dichlorodiphenyltrichloroethane (DDT) in the twentieth century. Although abundances of bald eagles have increased since DDT was banned, other contaminants have remained in the environment with unknown influence on eagle population trends. Ingestion of spent lead (Pb) ammunition, the source of Pb most available to eagles and other scavengers in the United States, is known to kill individual eagles, but the influence of the contaminant on overall population dynamics remains unclear, resulting in longstanding controversy over the continued legality of the use of Pb in terrestrial hunting ammunition. We hypothesized that mortalities from the ingestion of Pb reduced the long-term growth rate and resiliency of bald eagles in the northeast United States over the last 3 decades. We used Holling's definition of resilience (the ability of a system to absorb changes of state variables, driving variables, and parameters and still persist) to quantify how reduction in survival from Pb-associated mortalities reduced the likelihood of population persistence. We used a population matrix model and necropsy records gathered between 1990 and 2018 from a 7-state area to compare population dynamics under current versus hypothetical Pb-reduced and Pb-free scenarios. Despite a robust increase in eagle abundances in the northeast United States over that period, we estimated that deaths arising from ingestion of Pb was associated with a 4.2% (females) and 6.3% (males) reduction in the asymptotic long-term growth rate (lambda). Comparison between real (current) and counterfactual (Pb-reduced and Pb-free) population dynamics indicated that the deaths from acute Pb poisoning were additive because the mortality events were associated with marked reduction in annual survival performance of hatchlings and reproductive females. These shifts in survival performance were further associated with a reduction in resilience for hatchling (95.4%) and breeding (81.6%) female eagles. Counterintuitively, the current conditions produced an increase in resilience (68.9%) for immature and non-breeding female eagles over hypothetical Pb-free conditions, suggesting that the population of eagles in the northeast United States reorganized (in a population dynamics sense) to ensure population expansion despite additive mortalities associated with Pb. This study can be used by state and federal wildlife managers or non-governmental organizations to inform policy surrounding the use of lead ammunition or to educate hunters on the population-scale effects of their ammunition choices. 相似文献
153.
154.
155.
Although patterns of seedling selection by herbivores are strongly influenced by plant age and the expression of anti-herbivore defence, it is unclear how these characteristics interact to influence seedling susceptibility to herbivory. We tracked ontogenetic changes in a range of secondary metabolites (total phenolics, alkaloids and cyanogenic glycosides) commonly associated with seedling defence for nine sympatric British grassland species. Although there was marked variation in concentrations of secondary metabolites between different species, we found a consistent increase in the deployment of phenolics, alkaloids and cyanogenics with seedling age for six of the seven dicotyledonous species examined. The two grass species by contrast exhibited low levels of secondary metabolites across all developmental stages, possibly due to an investment in structural (silica phytoliths) defence. Our results corroborate species-specific patterns of seedling herbivory observed in field studies, and offer some explanation for the relatively high sensitivity to herbivore attack frequently observed for relatively young seedlings compared with their older conspecifics. Our results also support predictions made by the growth–differentiation balance hypothesis regarding ontogenetic changes in resource allocation to anti-herbivore defence for a range of potential chemical defences and across a range of sympatric plant species presumably subject to broadly similar selective pressures at the regeneration stage. 相似文献
156.
T. E. Pitcher † S. M. Doucet † J.-M. J. Beausoleil † D. Hanley † 《Journal of fish biology》2009,74(7):1450-1461
A study was undertaken to examine secondary sexual characters (spawning colouration and overall body size) in relation to sperm metrics in one alternative reproductive tactic of coho salmon Oncorhynchus kisutch : large hooknose males that spawn in dominance-based hierarchies. Males with less intense red spawning colouration had higher sperm velocities than males with darker red spawning colouration. There was no relationship between male body size and sperm metrics. These results suggest that within an alternative reproductive tactic, variation in sperm competition intensity may select for a trade-off between investment in sexual colouration and sperm quality. 相似文献
157.
Rebecca M. Dixon Jack R. Mellor Jonathan G. Hanley 《The Journal of biological chemistry》2009,284(21):14230-14235
Oxygen and glucose deprivation (OGD) induces delayed cell death in
hippocampal CA1 neurons via Ca2+/Zn2+-permeable,
GluR2-lacking AMPA receptors (AMPARs). Following OGD, synaptic AMPAR currents
in hippocampal neurons show marked inward rectification and increased
sensitivity to channel blockers selective for GluR2-lacking AMPARs. This
occurs via two mechanisms: a delayed down-regulation of GluR2 mRNA expression
and a rapid internalization of GluR2-containing AMPARs during the OGD insult,
which are replaced by GluR2-lacking receptors. The mechanisms that underlie
this rapid change in subunit composition are unknown. Here, we demonstrate
that this trafficking event shares features in common with events that mediate
long term depression and long term potentiation and is initiated by the
activation of N-methyl-d-aspartic acid receptors. Using
biochemical and electrophysiological approaches, we show that peptides that
interfere with PICK1 PDZ domain interactions block the OGD-induced switch in
subunit composition, implicating PICK1 in restricting GluR2 from synapses
during OGD. Furthermore, we show that GluR2-lacking AMPARs that arise at
synapses during OGD as a result of PICK1 PDZ interactions are involved in
OGD-induced delayed cell death. This work demonstrates that PICK1 plays a
crucial role in the response to OGD that results in altered synaptic
transmission and neuronal death and has implications for our understanding of
the molecular mechanisms that underlie cell death during stroke.Oxygen and glucose deprivation
(OGD)3 associated with
transient global ischemia induces delayed cell death, particularly in
hippocampal CA1 pyramidal cells
(1–3),
a phenomenon that involves Ca2+/Zn2+-permeable,
GluR2-lacking AMPARs (4).
AMPARs are heteromeric complexes of subunits GluR1–4
(5), and most AMPARs in the
hippocampus contain GluR2, which renders them calcium-impermeable and results
in a marked inward rectification in their current-voltage relationship
(6–8).
Ischemia induces a delayed down-regulation of GluR2 mRNA and protein
expression (4,
9–11),
resulting in enhanced AMPAR-mediated Ca2+ and Zn2+
influx into CA1 neurons (10,
12). In these neurons,
AMPAR-mediated postsynaptic currents (EPSCs) show marked inward rectification
1–2 days following ischemia and increased sensitivity to 1-naphthyl
acetyl spermine (NASPM), a channel blocker selective for GluR2-lacking AMPARs
(13–16).
Blockade of these channels at 9–40 h following ischemia is
neuroprotective, indicating a crucial role for Ca2+-permeable
AMPARs in ischemic cell death
(16).In addition to delayed changes in AMPAR subunit composition as a result of
altered mRNA expression, it was recently reported that
Ca2+-permable, GluR2-lacking AMPARs are targeted to synaptic sites
via membrane trafficking at much earlier times during OGD
(17). This subunit
rearrangement involves endocytosis of AMPARs containing GluR2 complexed with
GluR1/3, followed by exocytosis of GluR2-lacking receptors containing GluR1/3
(17). However, the molecular
mechanisms behind this trafficking event are unknown, and furthermore, it is
not known whether these trafficking-mediated changes in AMPAR subunit
composition contribute to delayed cell death.AMPAR trafficking is a well studied phenomenon because of its crucial
involvement in long term depression (LTD) and long term potentiation (LTP),
activity-dependent forms of synaptic plasticity thought to underlie learning
and memory. AMPAR endocytosis, exocytosis, and more recently subunit-switching
events (brought about by trafficking that involves endo/exocytosis) are
central to the necessary changes in synaptic receptor complement
(7,
18–20).
It is possible that similar mechanisms regulate AMPAR trafficking during
OGD.PICK1 is a PDZ and BAR (Bin-amphiphysin-Rus) domain-containing protein that
binds, via the PDZ domain, to a number of membrane proteins including AMPAR
subunits GluR2/3. This interaction is required for AMPAR internalization from
the synaptic plasma membrane in response to Ca2+ influx via NMDAR
activation in hippocampal neurons
(21–23).
This process is the major mechanism that underlies the reduction in synaptic
strength in LTD. Furthermore, PICK1-mediated trafficking has recently emerged
as a mechanism that regulates the GluR2 content of synaptic receptors, which
in turn determines their Ca2+ permeability
(7,
20). This is likely to be of
profound importance in both plasticity and pathological mechanisms.
Importantly, PICK1 overexpression has been shown to induce a shift in synaptic
AMPAR subunit composition in hippocampal CA1 neurons, resulting in inwardly
rectifying AMPAR EPSCs via reduced surface GluR2 and no change in GluR1
(24). This suggests that PICK1
may mediate the rapid switch in subunit composition occurring during OGD
(17). Here, we demonstrate
that the OGD-induced switch in AMPAR subunit composition is dependent on PICK1
PDZ interactions, and importantly, that this early trafficking event that
occurs during OGD contributes to the signaling that results in delayed
neuronal death. 相似文献
158.
Hayfa Salman Jaroslav Blazek Amparo Lopez-Rubio Elliot P. Gilbert Tracey Hanley Les Copeland 《Carbohydrate polymers》2009,75(3):420-427
Five wheat (Triticum aestivum L.) starches, from the varieties Sunco, Sunsoft, SM1118, and SM1028, with similar amylose content, and a waxy wheat were separated into large (A) and small (B) granules. The unfractionated starches, and isolated A and B granules, were characterized structurally and evaluated for their functional properties. The amylopectin chain length distribution revealed that A granules had a lower proportion of short chains with degree of polymerization (DP) 6-12 and a higher proportion of chains with DP 25-36 than B granules. X-ray diffraction (XRD) patterns showed predominantly A-type crystallinity for all of the starches. No differences in the crystallinity were found between unfractionated, A and B granules. Small-angle X-ray scattering (SAXS) patterns of the starches at 55% hydration showed that the lamellar repeat distance in A granules was larger than that of B granules for all the starches examined. However, the lamellar distances of both A and B granules from the waxy wheat were smaller than those of Sunco, Sunsoft, SM1118 and SM1028 starches. The swelling power of the B granules was greater than that of A granules from all five starches. The kinetics of digestion of A and B granules with α-amylase in vitro were complex, with B granules initially digested to a greater extent than A granules. After 4 h of incubation, A granules showed greater digestibility than B granules, except in the case of waxy starch where unfractionated and fractionated granules had similar in vitro digestibility. Correlations between structural and functional parameters were more significant for the isolated A and B granules than for the unfractionated starches. This study demonstrates that A and B granules differ in structure and functionality, and that some correlations between these properties could be masked in unfractionated starches with bimodal granule size distribution. 相似文献
159.
Jaroslav Blazek Hayfa Salman Amparo Lopez Rubio Elliot Gilbert Tracey Hanley Les Copeland 《Carbohydrate polymers》2009,75(4):705-711
Small-angle X-ray scattering (SAXS) together with several complementary techniques, such as differential scanning calorimetry and X-ray diffraction, have been employed to investigate the structural features that give diverse functional properties to wheat starches (Triticum aestivum L.) within a narrow range of enriched amylose content (36–43%). For these starches, which come from a heterogeneous genetic background, SAXS analysis of duplicate samples enabled structural information to be obtained about their lamellar architecture where differences in lamellar spacing among samples were only several tenths of nanometer. The SAXS analysis of these wheat starches with increased amylose content has shown that amylose accumulates in both crystalline and amorphous parts of the lamella. Using waxy starch as a distinctive comparison with the other samples confirmed a general trend of increasing amylose content being linked with the accumulation of defects within crystalline lamellae. We conclude that amylose content directly influences the architecture of semi-crystalline lamellae, whereas thermodynamic and functional properties are brought about by the interplay of amylose content and amylopectin architecture. 相似文献
160.