Alison Dodd scite author profile

Two experiments on the development of subvocal rehearsal in short-term memory (STM) are reported in this study. According to the articulatory loop model of adult performance, rehearsing the names of visually presented stimuli involves extra mental operations compared with rehearsing items that are heard. We used this analysis to predict that rehearsal will appear later in the development of STM for pictured objects than for spoken words. To provide an indication of rehearsal, we manipulated the word length of these two types of stimuli. Experiment 1 tested children's ability to recall sequences of fixed length, while Expt 2 used a memory span procedure. The results supported our prediction in that STM for spoken words was sensitive to word length at all ages from 4 years upwards, while STM for pictured objects showed equivalent effects only in children aged over 8 years.Subsidiary analysis of the relation between recall of spoken words and speech rate confirmed previous evidence that the capacity of the articulatory loop remains approximately constant during development. We conclude that this rehearsal system is present from an early age, and that development involves a broadening of the range of stimuli which can gain access to it.It is widely accepted that very young children do not rehearse in STM tasks and that the development of rehearsal strategies contributes to the increase in performance with age (see Kail, 1984). One line of evidence comes from studies of lip movements. Using namable pictorial stimuli, Flavell, Beach & Chinsky (1966) found that rehearsal was regularly present only in children aged 7 years or over. A less direct method is to examine the development of speech-based coding by testing for the phonemic similarity effect. This effect is well established in adult subjects and is the tendency for short-term recall to be poorer for phonemically similar items (e.g. Baddeley, 1966). In an influential study, Conrad (1971) found that introducing phonemic similarity among the names of pictorial stimuli had no effect on STM in children aged under about 6 years. Thus there is some convergence between different kinds of evidence about the development of rehearsal.A further method is to study the development of the word length effect: the tendency for adult subjects to be able to recall fewer long words than short words *Requests for reprints.

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Preclinical development of CAT‐354, an IL‐13 neutralizing antibody, for the treatment of severe uncontrolled asthma

May¹,

Monk

Cohen³

et al. 2012

British J Pharmacology

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BACKGROUND AND PURPOSEIL-13 is a pleiotropic Th2 cytokine considered likely to play a pivotal role in asthma. Here we describe the preclinical in vitro and in vivo characterization of CAT-354, an IL-13-neutralizing IgG4 monoclonal antibody (mAb), currently in clinical development.EXPERIMENTAL APPROACHIn vitro the potency, specificity and species selectivity of CAT-354 was assayed in TF-1 cells, human umbilical vein endothelial cells and HDLM-2 cells. The ability of CAT-354 to modulate disease-relevant mechanisms was tested in human cells measuring bronchial smooth muscle calcium flux induced by histamine, eotaxin generation by normal lung fibroblasts, CD23 upregulation in peripheral blood mononuclear cells and IgE production by B cells. In vivo CAT-354 was tested on human IL-13-induced air pouch inflammation in mice, ovalbumin-sensitization and challenge in IL-13 humanized mice and antigen challenge in cynomolgus monkeys.KEY RESULTSCAT-354 has a 165 pM affinity for human IL-13 and functionally neutralized human, human variant associated with asthma and atopy (R130Q) and cynomolgus monkey, but not mouse, IL-13. CAT-354 did not neutralize human IL-4. In vitro CAT-354 functionally inhibited IL-13-induced eotaxin production, an analogue of smooth muscle airways hyperresponsiveness, CD23 upregulation and IgE production. In vivo in humanized mouse and cynomolgus monkey antigen challenge models CAT-354 inhibited airways hyperresponsiveness and bronchoalveolar lavage eosinophilia.CONCLUSIONS AND IMPLICATIONSCAT-354 is a potent and selective IL-13-neutralizing IgG4 mAb. The preclinical data presented here support the trialling of this mAb in patients with moderate to severe uncontrolled asthma.

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Preclinical characterisation of the GM-CSF receptor as a therapeutic target in rheumatoid arthritis

et al. 2014

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ObjectivePrevious work has suggested that the granulocyte macrophage colony stimulating factor (GM-CSF)–GM-CSF receptor α axis (GM-CSFRα) may provide a new therapeutic target for the treatment of rheumatoid arthritis (RA). Therefore, we investigated the cellular expression of GM-CSFRα in RA synovial tissue and investigated the effects of anti-GM-CSFRα antibody treatment in vitro and in vivo in a preclinical model of RA.MethodsWe compared GM-CSFRα expression on macrophages positive for CD68 or CD163 on synovial biopsy samples from patients with RA or psoriatic arthritis (PsA) to disease controls. In addition, we studied the effects of CAM-3003, an anti-GM-CSFR antibody in a collagen induced arthritis model of RA in DBA/1 mice. The pharmacokinetic profile of CAM-3003 was studied in naïve CD1(ICR) mice (see online supplement) and used to interpret the results of the pharmacodynamic studies in BALB/c mice.ResultsGM-CSFRα was expressed by CD68 positive and CD163 positive macrophages in the synovium, and there was a significant increase in GM-CSFRα positive cells in patients in patients with RA as well as patients with PsA compared with patients with osteoarthritis and healthy controls. In the collagen induced arthritis model there was a dose dependent reduction of clinical arthritis scores and the number of F4/80 positive macrophages in the inflamed synovium after CAM-3003 treatment. In BALB/c mice CAM-3003 inhibited recombinant GM-CSF mediated margination of peripheral blood monocytes and neutrophils.ConclusionsThe findings support the ongoing development of therapies aimed at interfering with GM-CSF or its receptor in various forms of arthritis, such as RA and PsA.

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Neutrophil GM-CSF receptor dynamics in acute lung injury

Alessandris

Ferguson

Dodd

et al. 2019

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GM‐CSF is important in regulating acute, persistent neutrophilic inflammation in certain settings, including lung injury. Ligand binding induces rapid internalization of the GM‐CSF receptor (GM‐CSFRα) complex, a process essential for signaling. Whereas GM‐CSF controls many aspects of neutrophil biology, regulation of GM‐CSFRα expression is poorly understood, particularly the role of GM‐CSFRα in ligand clearance and whether signaling is sustained despite major down‐regulation of GM‐CSFRα surface expression. We established a quantitative assay of GM‐CSFRα surface expression and used this, together with selective anti‐GM‐CSFR antibodies, to define GM‐CSFRα kinetics in human neutrophils, and in murine blood and alveolar neutrophils in a lung injury model. Despite rapid sustained ligand‐induced GM‐CSFRα loss from the neutrophil surface, which persisted even following ligand removal, pro‐survival effects of GM‐CSF required ongoing ligand‐receptor interaction. Neutrophils recruited to the lungs following LPS challenge showed initially high mGM‐CSFRα expression, which along with mGM‐CSFRβ declined over 24 hr; this was associated with a transient increase in bronchoalveolar lavage fluid (BALF) mGM‐CSF concentration. Treating mice in an LPS challenge model with CAM‐3003, an anti‐mGM‐CSFRα mAb, inhibited inflammatory cell influx into the lung and maintained the level of BALF mGM‐CSF. Consistent with neutrophil consumption of GM‐CSF, human neutrophils depleted exogenous GM‐CSF, independent of protease activity. These data show that loss of membrane GM‐CSFRα following GM‐CSF exposure does not preclude sustained GM‐CSF/GM‐CSFRα signaling and that this receptor plays a key role in ligand clearance. Hence neutrophilic activation via GM‐CSFR may play an important role in neutrophilic lung inflammation even in the absence of high GM‐CSF levels or GM‐CSFRα expression.

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Investigating The Utility Of Gene-targeted IL-13-humanised Mice To Support Clinical Development Of CAT-354, A Human Specific Therapeutic, For Asthma

Corkill¹,

Davis²,

Dodd³

et al. 2010

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Alison Dodd

Development of rehearsal in short‐term memory: Differences between pictorial and spoken stimuli

Preclinical development of CAT‐354, an IL‐13 neutralizing antibody, for the treatment of severe uncontrolled asthma

Preclinical characterisation of the GM-CSF receptor as a therapeutic target in rheumatoid arthritis

Neutrophil GM-CSF receptor dynamics in acute lung injury

Investigating The Utility Of Gene-targeted IL-13-humanised Mice To Support Clinical Development Of CAT-354, A Human Specific Therapeutic, For Asthma

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