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Inactive Precursor (inactive + precursor)

Distribution by Scientific Domains
Life Sciences50%

Selected Abstracts

Blockade of caspase-1 increases neurogenesis in the aged hippocampus

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2007
Carmelina Gemma
Abstract Adult hippocampal neurogenesis dramatically decreases with increasing age, and it has been proposed that this decline contributes to age-related memory deficits. Central inflammation contributes significantly to the decrease in neurogenesis associated with ageing. Interleukin-1, is a proinflammatory cytokine initially synthesized as an inactive precursor that is cleaved by caspase-1 to generate the biologically active mature form. Whether IL-1, affects neurogenesis in the aged hippocampus is unknown. Here we analysed cells positive for 5-bromo-2-deoxyuridine (BrdU; 50 mg/kg) in animals in which cleavage of IL-1, was inhibited by the caspase-1 inhibitor Ac-YVAD-CMK (10 pmol). Aged (22 months) and young (4 months) rats received Ac-YVAD-CMK for 28 days intracerebroventricularly through a brain infusion cannula connected to an osmotic minipump. Starting on day 14, animals received a daily injection of BrdU for five consecutive days. Unbiased stereology analyses performed 10 days after the last injection of BrdU revealed that the total number of newborn cells generated over a 5-day period was higher in young rats than in aged rats. In addition, there was a 53% increase in the number of BrdU-labelled cells of the aged Ac-YVAD-CMK-treated rats compared to aged controls. Immunofluorescence studies were performed to identify the cellular phenotype of BrdU-labelled cells. The increase in BrdU-positive cells was not due to a change in the proportion of cells expressing neuronal or glial phenotypes in the subgranular zone. These findings demonstrate that the intracerebroventricular administration of Ac-YVAD-CMK reversed the decrease in hippocampal neurogenesis associated with ageing. [source]

Increased bacterial load in shrimp hemolymph in the absence of prophenoloxidase

FEBS JOURNAL, Issue 18 2009
Fernand F. Fagutao
Invertebrates rely on their innate immune responses to protect themselves from pathogens, one of which is melanization of bacteria mediated by the activation of phenoloxidase (PO). Furthermore, invertebrate hemolymph, even that of healthy individuals, has been shown to contain bacterial species. The mechanisms that prevent these bacteria from proliferating and becoming deleterious to the host are, however, poorly understood. Here, we show that knocking down the activity of the inactive precursor of PO [prophenoloxidase (proPO)] by RNA interference resulted in a significant increase in the bacterial load of kuruma shrimp, Marsupenaeus japonicus, even in the absence of a bacterial or viral challenge. Silencing of proPO also led to a sharp increase in shrimp mortality. In addition, the hemolymph of proPO-depleted shrimp had significantly lower hemocyte counts and PO activity than control samples. Microarray analysis after proPO silencing also showed a decrease in the expression of a few antimicrobial peptides, but no effect on the expression of the genes involved in the clotting system. Treatment with antibiotics prior to and after proPO dsRNA injection, to counteract the loss of proPO, resulted in a significant increase in shrimp survival. Our results therefore show that the absence of proPO renders the shrimp incapable of controlling bacteria present in the hemolymph, and that proPO is therefore essential for its survival. [source]

DNA-binding and transcription characteristics of three cloned sigma factors from mustard (Sinapis alba L.) suggest overlapping and distinct roles in plastid gene expression

FEBS JOURNAL, Issue 6 2003
Anke Homann
We have isolated and studied the cloned sigma factors SASIG1-3 from mustard (Sinapis alba). In functional analyses using both promoter and factor mutants, the three recombinant proteins all had similar basic properties but also revealed differences in promoter preference and requirements for single nucleotide positions. Directed muta- genesis of SASIG1 identified critical residues within the conserved regions 2.4 and 4.2 necessary for binding of the ,10 and ,35 promoter elements, respectively. SASIG1 and 2, but not SASIG3, each have a typical region 2.5 for binding of the extended ,10 promoter element. SASIG3 has a pro-sequence reminiscent of ,K from Bacillus subtilis, suggesting that proteolytic cleavage from an inactive precursor is involved in the regulation of plastid transcription. In addition, SASIG2 was found to be more abundant in light-grown as compared to dark-grown mustard seedlings, while the converse was true for SASIG3. [source]

From pro defensins to defensins: synthesis and characterization of human neutrophil pro ,-defensin-1 and its mature domain

CHEMICAL BIOLOGY & DRUG DESIGN, Issue 2 2003
Z. Wu
Abstract: Human neutrophil ,-defensins (HNPs) are small, cationic, Cys-rich antimicrobial proteins that play important roles in innate immunity against infectious microbes such as bacteria, fungi and enveloped viruses. Synthesized as inactive precursors in vivo (pre-proHNPs), HNPs are activated through proteolytic removal of the inhibitory pro-peptide required for subcellular sorting and correct folding. We seek to understand the molecular basis for the recognition between the 45-residue pro-peptide and the C-terminal functional domain. Here we described, total chemical synthesis of the 75-residue human neutrophil pro ,-defensin-1 (proHNP1) via native chemical ligation. After oxidative folding, proHNP1 is cleaved by cyanogen bromide at the Met45,Ala46 peptide bond to release the mature form. The native disulfide connectivity in HNP1, i.e. Cys1,Cys6, Cys2,Cys4 and Cys3,Cys5, is verified by mass mapping of peptide fragments generated by proteolytic digestion and Edman degradation. Fluorescence spectroscopy studies and antimicrobial activity assays further support that synthetic proHNP1 and HNP1 are correctly folded. While largely unstructured in aqueous solution, the pro-peptide binds to HNP1 intermolecularly with an apparent Kd value of 6.2 ,m at pH 7.4, confirming the mode of intramolecular inactivation of human ,-defensin precursors. [source]