An assessment of the life time biosynthesis potential of the male boll weevil

The four monoterpene compounds [1, (+)-cis-2-isopropenyl-1-methycyclobutaneethanol; II, (Z)-3,3-dimethyl-Δ^1,β-cyclohexaneethanol; III, (Z)-3,3-dimethyl-Δ^1,α-cyclohexaneacetaldehyde; and IV, (E)-3,3-dimethyl-Δ^1,α-cyclohexaneacetaldehyde] which comprise the pheromone of the male boll weevil, Anthonomus grandis, were determined daily throughout the lifespan of the insect by GLC analysis of the whole body and the frass. The total content of the components in the male is never greater than 210 ng, the average content in the frass produced during 1 day is 1268 ng, and the lifetime production is at least 40,000 ng. The ratio of the four components in frass is 6 : 6 : 2 : 1/I : II : III : IV. None of the four components was found in females, but female frass contained traces in three instances. These data can be used to compare the potential attractancy of insects from various geographical areas, at different seasons, in different nutritional states, and after chemosterilization. Such differences in potential insect attractiveness could be crucial to effective large-scale control programmes.     

Quercetin 3-O-galactosyl-(1 → 6)-glucoside,a compound from narrowleaf vetch with antibacterial activity

A new flavonol glycoside, quercetin 3-O-galactosyl-(1 → 6)-glucoside, has been isolated from above-ground parts of narrowleaf vetch, Vicia angustifolia. Its antibacterial activity against Pseudomonas maltophilia and Enterobacter cloacae is compared with that of several other flavonol glycosides.     

Receptor-mediated endocytosis of immunoglobulin-coated colloidal gold particles in cultured mouse peritoneal macrophages. Chloroquine and monensin inhibit transfer of the ligand from endocytic vesicles to lysosomes

Earlier studies have shown that immunoglobulin G (IgG)-coated colloidal gold particles bind to specific receptors on the macrophage surface and accumulate in coated pits. They are then internalized via endocytic vesicles and transferred to lysosomes. During this process the plasma membrane is depleted of binding sites for IgG, suggesting that both the receptor and the ligand end up in lysosomes. Here, we have examined the effects of the weak base chloroquine and the Na+-H+ ionophore monensin on endocytosis and intracellular transport of IgG-coated colloidal gold particles in cultured macrophages. The results indicate that chloroquine and monensin do not arrest uptake of IgG-coated particles bound to the cell surface. On the other hand, the drugs strongly inhibit transfer of the particles from endocytic vesicles to lysosomes, the latter marked by prior pulse-chase labeling of the cells with horseradish peroxidase. Since the main effect shared by chloroquine and monensin is to raise pH in acid compartments such as endocytic vesicles and lysosomes, the findings suggest that the transfer of IgG-coated particles into the lysosomes is a pH-dependent process. It remains to be shown whether it is the membrane fusion as such that is controlled by pH or, more specifically, the transfer of receptor-bound ligands into the lysosomes.     

Disruption of integrin α5β1 signaling does not impair PDGF-BB-mediated stimulation of the extracellular signal-regulated kinase pathway in smooth muscle cells

Smooth muscle cell (SMC) proliferation is dependent on both anchorage to the extracellular matrix by integrins and the presence of growth factors. Integrins and growth factor receptors transduce signals that seem to converge on the extracellular signal-regulated (ERK) pathway, but the molecular basis for this interaction is not known. SMC proliferation has previously been shown to be supported by culture on fibronectin (FN), whereas cells cultured on laminin (LN) are growth inhibited. In the present study, we examined the mitogenic response to platelet-derived growth factor BB (PDGF-BB) in baboon SMCs cultured on FN vs. LN. Induction of DNA synthesis and the activity of ERK and the ERK activating kinase MKK-1 were reduced only slightly after stimulation with PDGF-BB in cells cultured on LN vs. those cultured on FN. We tested the possibility that endogenous FN secretion contributes to the ability of the cells to respond to PDGF stimulation during culture on LN. Inhibition of interactions between FN and integrin α₅β₁ by the competitive GRGDSP-peptide or anti-α₅ integrin antibody restricted cell spreading, reduced cell-surface staining for α₅β₁ and FN fibrils, and inhibited PDGF-BB-induced DNA synthesis. These results showed that SMC growth on LN required a provisional FN matrix. Although disruption of interactions between α₅β₁ and FN by the GRGDSP-peptide prevented PDGF-BB-induced DNA synthesis, neither ERK activity nor translocation of ERKs into the nucleus was inhibited. These results show that integrins regulate SMC growth through pathways that function in parallel with, but distinct from, growth factor-mediated ERK signaling. J. Cell. Physiol. 172:109–116, 1997. © 1997 Wiley-Liss, Inc.     

CXCR4 Chemokine Receptor Signaling Induces Apoptosis in Acute Myeloid Leukemia Cells via Regulation of the Bcl-2 Family Members Bcl-XL,Noxa, and Bak

The CXCR4 chemokine receptor promotes survival of many different cell types. Here, we describe a previously unsuspected role for CXCR4 as a potent inducer of apoptosis in acute myeloid leukemia (AML) cell lines and a subset of clinical AML samples. We show that SDF-1, the sole ligand for CXCR4, induces the expected migration and ERK activation in the KG1a AML cell line transiently overexpressing CXCR4, but ERK activation did not lead to survival. Instead, SDF-1 treatment led via a CXCR4-dependent mechanism to apoptosis, as evidenced by increased annexin V staining, condensation of chromatin, and cleavage of both procaspase-3 and PARP. This SDF-1-induced death pathway was partially inhibited by hypoxia, which is often found in the bone marrow of AML patients. SDF-1-induced apoptosis was inhibited by dominant negative procaspase-9 but not by inhibition of caspase-8 activation, implicating the intrinsic apoptotic pathway. Further analysis showed that this pathway was activated by multiple mechanisms, including up-regulation of Bak at the level of mRNA and protein, stabilization of the Bak activator Noxa, and down-regulation of antiapoptotic Bcl-X_L. Furthermore, adjusting expression levels of Bak, Bcl-X_L, or Noxa individually altered the level of apoptosis in AML cells, suggesting that the combined modulation of these family members by SDF-1 coordinates their interplay to produce apoptosis. Thus, rather than mediating survival, SDF-1 may be a means to induce apoptosis of CXCR4-expressing AML cells directly in the SDF-1-rich bone marrow microenvironment if the survival cues of the bone marrow are disrupted.     

Are forest‐shrubland mosaics of the Cape Floristic Region an example of alternate stable states?

The idea of alternate stable states (ASS) has been used to explain the juxtaposition of distinct vegetation types within the same climate regime. ASS may explain the co‐existence of relatively inflammable closed‐canopy Afrotemperate forest patches (‘Forest’) within fire‐prone open‐canopy Fynbos in the Cape Floristic Region (CFR) on sandstone‐derived soils. We evaluated the hypothesis that although fire and local topography and hydrology likely determined the paleogeographic boundaries of Forest, present‐day boundaries are additionally imposed by emergent edaphic properties and disturbance histories. We studied vegetation and edaphic properties of Forest‐Transition‐Fynbos vegetation at two sites within the CFR on sandstone‐derived soils and tracked historical change using aerial photography. Whereas Forest and Fynbos have changed little in extent or density since 1945, transition vegetation increased into areas formerly occupied by Fynbos. Forest soils were ubiquitously more nutrient‐rich than Fynbos soils, with transition soils being intermediate. These edaphic differences are not due to geological differences, but instead appear to have emerged as a consequence of different nutrient cycling within the different ecosystems. Soil nutrients are now so different that a switch from Fynbos to Forest is unlikely, in the short term (i.e. decades). Floristically and nutritionally, transitional vegetation is more similar to Fynbos than Forest and may be less resilient to changes in exogenous drivers (e.g. fire). Our findings are consistent with the idea that geologically Forest and Fynbos are largely fire‐derived long‐term ASS, with the stability of each state reinforced by marked soil nutrient differences. In contrast, the intermediate transitional vegetation that might switch states is unlikely to be stable.     

Nitrogen and Phosphorus Limitation over Long-Term Ecosystem Development in Terrestrial Ecosystems

Nutrient limitation to net primary production (NPP) displays a diversity of patterns as ecosystems develop over a range of timescales. For example, some ecosystems transition from N limitation on young soils to P limitation on geologically old soils, whereas others appear to remain N limited. Under what conditions should N limitation and P limitation prevail? When do transitions between N and P limitation occur? We analyzed transient dynamics of multiple timescales in an ecosystem model to investigate these questions. Post-disturbance dynamics in our model are controlled by a cascade of rates, from plant uptake (very fast) to litter turnover (fast) to plant mortality (intermediate) to plant-unavailable nutrient loss (slow) to weathering (very slow). Young ecosystems are N limited when symbiotic N fixation (SNF) is constrained and P weathering inputs are high relative to atmospheric N deposition and plant N:P demand, but P limited under opposite conditions. In the absence of SNF, N limitation is likely to worsen through succession (decades to centuries) because P is mineralized faster than N. Over long timescales (centuries and longer) this preferential P mineralization increases the N:P ratio of soil organic matter, leading to greater losses of plant-unavailable N versus P relative to plant N:P demand. These loss dynamics favor N limitation on older soils despite the rising organic matter N:P ratio. However, weathering depletion favors P limitation on older soils when continual P inputs (e.g., dust deposition) are low, so nutrient limitation at the terminal equilibrium depends on the balance of these input and loss effects. If NPP switches from N to P limitation over long time periods, the transition time depends most strongly on the P weathering rate. At all timescales SNF has the capacity to overcome N limitation, so nutrient limitation depends critically on limits to SNF.