52 research outputs found
Nerve Growth Factor mRNA Expression in the Regenerating Antler Tip of Red Deer (Cervus elaphus)
Deer antlers are the only mammalian organs that can fully regenerate each year. During their growth phase, antlers of red deer extend at a rate of approximately 10 mm/day, a growth rate matched by the antler nerves. It was demonstrated in a previous study that extracts from deer velvet antler can promote neurite outgrowth from neural explants, suggesting a possible role for Nerve Growth Factor (NGF) in antler innervation. Here we showed using the techniques of Northern blot analysis, denervation, immunohistochemistry and in situ hybridization that NGF mRNA was expressed in the regenerating antler, principally in the smooth muscle of the arteries and arterioles of the growing antler tip. Regenerating axons followed the route of the major blood vessels, located at the interface between the dermis and the reserve mesenchyme of the antler. Denervation experiments suggested a causal relationship exists between NGF mRNA expression in arterial smooth muscle and sensory axons in the antler tip. We hypothesize that NGF expressed in the smooth muscle of the arteries and arterioles promotes and maintains antler angiogenesis and this role positions NGF ahead of axons during antler growth. As a result, NGF can serve a second role, attracting sensory axons into the antler, and thus it can provide a guidance cue to define the nerve track. This would explain the phenomenon whereby re-innervation of the regenerating antler follows vascular ingrowth. The annual growth of deer antler presents a unique opportunity to better understand the factors involved in rapid nerve regeneration
The psychic life of fragments: splitting from Ferenczi to Klein
The present paper starts from the reflection that there is a curious âphenomenological gapâ in psychoanalysis when it comes to processes of splitting and to describing the âlifeâ of psychic fragments resulting from processes of splitting. In simpler terms, we are often in a position to lack a precise understanding of what is being split and how the splitting occurs. I argue that although Melanie Kleinâs work is often engaged when talking of splitting (particularly through discussions on identification, projection and projective identification), there are some important phenomenological opacities in her construction. I show that by orchestrating a dialogue between Melanie Klein and SĂĄndor Ferenczi, we arrive at a fuller and more substantive conception of psychic splitting and of the psychic life of fragments which are the result of splitting. This is even more meaningful because there are some unacknowledged genealogical connections between Ferenczian concepts and Kleinian concepts, which I here explore. While with Klein we remain in the domain of âgoodâ and âbadâ objectsâpolarised objects which are constantly split and projectedâwith Ferenczi we are able to also give an account of complicated forms of imitation producing psychic fragments and with a âdarkâ side of identification, which he calls âidentification with the aggressorâ. While attempting to take steps toward imagining a dialogue between Klein and Ferenczi, I note a certain silent âFerenczian turnâ in a late text by Melanie Klein, âOn the Development of Mental Functioningâ, written in 1958. In particular, I reflect on her reference to some âterrifying figuresâ of the psyche, which cannot be accounted for simply as the persecutory parts of the super-ego but are instead more adequately read as more enigmatic and more primitive psychic fragments, resulting from processes of splitting
Evolution of the Vertebrate Gene Regulatory Network Controlled by the Transcriptional Repressor REST
Specific wiring of gene-regulatory networks is likely to underlie much of the phenotypic difference between species, but the extent of lineage-specific regulatory architecture remains poorly understood. The essential vertebrate transcriptional repressor REST (RE1-Silencing Transcription Factor) targets many neural genes during development of the preimplantation embryo and the central nervous system, through its cognate DNA motif, the RE1 (Repressor Element 1). Here we present a comparative genomic analysis of REST recruitment in multiple species by integrating both sequence and experimental data. We use an accurate, experimentally validated Position-Specific Scoring Matrix method to identify REST binding sites in multiply aligned vertebrate genomes, allowing us to infer the evolutionary origin of each of 1,298 human RE1 elements. We validate these findings using experimental data of REST binding across the whole genomes of human and mouse. We show that one-third of human RE1s are unique to primates: These sites recruit REST in vivo, target neural genes, and are under purifying evolutionary selection. We observe a consistent and significant trend for more ancient RE1s to have higher affinity for REST than lineage-specific sites and to be more proximal to target genes. Our results lead us to propose a model where new transcription factor binding sites are constantly generated throughout the genome; thereafter, refinement of their sequence and location consolidates this remodeling of networks governing neural gene regulation
Renal proximal tubule function is preserved in Cftrtm2camÎF508 cystic fibrosis mice
Changes in proximal tubule function have been reported in cystic fibrosis patients. The aim of this study was to investigate proximal tubule function in the Cftrtm2camÎF508 cystic fibrosis (CF) mouse model. A range of techniques were used including renal clearance studies, in situ microperfusion, RT-PCR and whole-cell patch clamping.Renal Na+ clearance was similar in wild-type (1.4 ± 0.3 ÎŒl minâ1, number of animals, N= 12) and CF mice (1.6 ± 0.4 ÎŒl minâ1, N= 7) under control conditions. Acute extracellular volume expansion resulted in significant natriuresis in wild-type (7.0 ± 0.8 ÎŒl minâ1, N= 8) and CF mice (9.3 ± 1.4 ÎŒl minâ1, N= 9); no difference between genotypes was observed.In situ microperfusion revealed that fluid absorptive rate (Jv) was similar under control conditions between wild-type (2.2 ± 0.4 nl mmâ1 minâ1, n= 10) and CF mice (1.9 ± 0.3 nl mmâ1 minâ1, n= 11). Addition of a forskolin-dibutyryl cAMP (db-cAMP) cocktail to the perfusate caused no significant change in Jv in either wild-type (2.6 ± 0.7 nl mmâ1 minâ1, n= 10) or Cftrtm2camÎF508 mice (2.0 ± 0.5 nl mmâ1 minâ1, n= 10).CFTR expression was confirmed in samples of outer cortex using RT-PCR. However, no evidence for functional CFTR was obtained when outer cortical cells were stimulated with protein kinase A or forskolin-db-cAMP using whole-cell patch clamping.In conclusion, no functional deficit in proximal tubule function was found in Cftrtm2camÎF508 mice. This may be a consequence of a lack of whole-cell cAMP-dependent Clâ conductance in mouse proximal tubule cells
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