Gibberellin dose-response regulation of GA4 gene transcript levels in Arabidopsis.

The gibberellins (GAs) are a complex family of diterpenoid compounds, some of which are potent endogenous regulators of plant growth. As part of a feedback control of endogenous GA levels, active GAs negatively regulate the abundance of mRNA transcripts encoding GA biosynthesis enzymes. For example, Arabidopsis GA4 gene transcripts encode GA 3beta-hydroxylase, an enzyme that catalyzes the conversion of inactive to active GAs. Here we show that active GAs regulate GA4 transcript abundance in a dose-dependent manner, and that down-regulation of GA4 transcript abundance is effected by GA4 (the product of 3beta-hydroxylation) but not by its immediate precursor GA9 (the substrate). Comparison of several different GA structures showed that GAs active in promoting hypocotyl elongation were also active in regulating GA4 transcript abundance, suggesting that similar GA:receptor and subsequent signal transduction processes control these two responses. It is interesting that these activities were not restricted to 3beta-hydroxylated GAs, being also exhibited by structures that were not 3beta-hydroxylated but that had another electronegative group at C-3. We also show that GA-mediated control of GA4 transcript abundance is disrupted in the GA-response mutants gai and spy-5. These observations define a sensitive homeostatic mechanism whereby plants may regulate their endogenous GA levels.

Gibberellin: inhibitor of an inhibitor of...?

Gibberellin is an endogenous plant growth regulator. Here, we describe our present understanding of how gibberellin regulates plant growth, using recent results gained from studies of gibberellin-signalling mutants of Arabidopsis. These results show that a signalling pathway represses plant growth and that gibberellin releases this repression. In consequence, the well-known growth-promoting properties of gibberellin are due to its activity as an "inhibitor of an inhibitor" [Brian Pw. Sym Soc. Exp Bio 1957; 11:166-182 (Ref. 1)] of plant growth.

The Arabidopsis GAI gene defines a signaling pathway that negatively regulates gibberellin responses.

The Arabidopsis gai mutant allele confers a reduction in gibberellin (GA) responsiveness. Here we report the molecular cloning of GAI and a closely related gene GRS. The predicted GAI (wild-type) and gai (mutant) proteins differ only by the deletion of a 17-amino-acid segment from within the amino-terminal region. GAI and GRS contain nuclear localization signals, a region of homology to a putative transcription factor, and motifs characteristic of transcriptional coactivators. Genetic analysis indicates that GAI is a repressor of GA responses, that GA can release this repression, and that gai is a mutant repressor that is relatively resistant to the effects of GA. Mutations at SPY and GAR2 suppress the gai phenotype, indicating the involvement of GAI, SPY, and GAR2 in a signaling pathway that regulates GA responses negatively. The existence of this pathway suggests that GA modulates plant growth through derepression rather than through simple stimulation.

The interleukin-7 receptor alpha chain transmits distinct signals for proliferation and differentiation during B lymphopoiesis.

The interleukin 7 receptor (IL7R), which contains a unique alpha chain and a gamma chain shared by other cytokine receptors, is indispensable for normal lymphocyte development. The basis for this role is poorly understood. Here we show that the IL7R alpha chain not only causes progenitors to proliferate, but also has a distinct activity in inducing differentiation. First, we identify a single cytoplasmic tyrosine residue in the IL7R alpha chain that is essential for cell cycle entry and proliferation dependent on phosphatidylinositol 3-kinase. We use a mutant alpha chain in which this residue has been altered to reconstitute B lymphopoiesis by retrovirus-mediated gene transfer in cultures of bone marrow from mice deficient in IL7R alpha chain. The mutation abrogates the proliferation of B-lymphocyte progenitors, but reveals a novel function of the alpha chain in promoting immunoglobulin heavy chain gene rearrangement leading to B-cell differentiation. This function is lost (but proliferation sustained) when the cytoplasmic domain of IL7R alpha is replaced by corresponding sequences from the IL2R, despite the similarity on their signalling mechanisms. Thus, the signals which mediate a differentiative function of the IL7R in B lymphopoiesis are specific and distinct from those causing proliferation.

Interleukin-7 induces the association of phosphatidylinositol 3-kinase with the alpha chain of the interleukin-7 receptor.

The recently characterized receptor for interleukin (IL)-7 (IL-7R) includes a unique alpha chain as well as a common gamma chain shared with the receptors for IL-2 and IL-4. Engagement of the IL-7R activates the intracellular enzyme phosphatidylinositol (PtdIns) 3-kinase but the mechanism of PtdIns 3-kinase activation and the molecular basis of its interaction with IL-7R are not known. Here we show that IL-7 causes the 85-kDa regulatory subunit of PtdIns 3-kinase (p85), and PtdIns 3-kinase activity, to associate with the IL-7R. This interaction can be ascribed to ligand-induced phosphorylation of a single Tyr residue in the receptor's unique alpha chain. Herbimycin A, a specific protein tyrosine kinase inhibitor, suppresses not only tyrosine phosphorylation of the IL-7R but also its association with p85. A phosphopeptide corresponding to the sequence surrounding Tyr449 in the cytoplasmic tail of the IL-7R alpha chain, but not its non-phosphorylated analogue or phosphopeptides coincident with the sequences surrounding other alpha chain Tyr residues, efficiently competes out p85 binding. Replacement of Tyr449 with Phe results in a loss of p85 binding. Finally, soluble forms of the src homology 2 domains of p85, which bind directly to phosphotyrosyl peptides, specifically inhibit the association of p85 with the IL-7R. Thus, PtdIns 3-kinase recruitment occurs through a single, phosphotyrosine dependent recognition motif surrounding Tyr449 in the IL-7R alpha chain. This motif corresponds to a canonical sequence for p85 binding, Tyr(P)-X-X-Met. Since the closely related IL-2R and IL-4R also activate PtdIns 3-kinase but are devoid of such canonical motifs, our results suggest that the mechanism by which IL-7R recruits and activates PtdIns 3-kinase differs fundamentally from that used by the other receptors. PtdIns 3-kinase may, therefore, play a unique and important role in the biological response to IL-7.

Interleukin 7 receptor functions by recruiting the tyrosine kinase p59fyn through a segment of its cytoplasmic tail.

Engagement of the cell surface receptor for interleukin 7 (IL-7R) provokes protein tyrosine phosphorylation, although the receptor lacks a kinase catalytic domain in its cytoplasmic tail. The molecular basis of this response is not known. Here we report that the IL-7R functions by recruiting p59fyn, an intracellular tyrosine kinase of the src family. Treatment of pre-B cells with IL-7 causes an enhancement of the catalytic activity of p59fyn, but not of the related kinase p62yes. IL-7-dependent stimulation of the enzyme phosphatidylinositol 3-kinase, a tyrosine kinase substrate, provides further evidence suggestive of p59fyn activation. We demonstrate that p59fyn forms part of a protein complex with the IL-7R. A chimeric receptor comprising the CD8 extracellular domain and the IL-7R cytoplasmic tail (CD8/IL-7R) recruits tyrosine kinase activity in transfected myeloma cells, and p59fyn can be detected in association with it by immunoprecipitation and immunoblotting. Conversely, p59fyn immunoprecipitates contain the phosphorylated CD8/IL-7R. We have identified a segment of the IL-7R cytoplasmic tail which mediates p59fyn recruitment: a truncated CD8/IL-7R containing only this segment recruits tyrosine kinase activity, associates with p59fyn, and activates phosphatidylinositol 3-kinase. Interestingly, this segment contains no tyrosine residues, although it is the phosphotyrosine-binding src homology domains of p59fyn and phosphatidylinositol 3-kinase which mediate their association with many growth factor receptors. Thus our results suggest that an unusual interaction links IL-7R to these two important signaling pathways.

Murder by stabbing.

A series of 100 deaths from homicidal stabbing has been analysed for the causation of the violence, the age and sex of both the victim and the assailant, the multiplicity of wounds, the site of single wounds, the incidence of defence wounds, association with other injuries and the weapons used.