Extracellular matrix molecules, their receptors, and secreted proteases in synaptic plasticity

Neural cells secrete diverse molecules, which accumulate in the extracellular space and form the extracellular matrix (ECM). Interactions between cells and the ECM are well recognized to play the crucial role in cell migration and guidance of growing axons, whereas formation of mature neural ECM in the form of perineuronal nets is believed to restrict certain forms of developmental plasticity. On the other hand, major components of perineuronal nets and other ECM molecules support induction of functional plasticity, the most studied form of which is long-term potentiation. Here, we review the underlying mechanisms by which ECM molecules, their receptors and remodeling proteases regulate the induction and maintenance of synaptic modifications. In particular, we highlight that activity-dependent secretion and activation of proteases leads to a local cleavage of the ECM and release of signaling proteolytic fragments. These molecules regulate transmitter receptor trafficking, actin cytoskeleton, growth of dendritic spines, and formation of dendritic filopodia.     

Mechanism of conjugation and recombination in bacteria

Summary For inhibition of DNA synthesis an antibiotic, edeine, acting specifically on DNA replication, was used. The inhibition of DNA synthesis in F^– cells caused only small decrease (three to four-fold) in recombination frequency. On the other hand a full inhibition of DNA synthesis in Hfr cells affected the recombination to the high extent, lowering its frequency 20–40 fold, at the same time lowering to the similar degree chromosome transfer (measured by zygotic induction frequency). However, the partial inhibition of DNA synthesis in Hfr cells, amounting to about 10 per cent of the control, permitted normal chromosome transfer and normal level of recombination. The results do not agree with Jacob and Brenner's model of chromosome transfer, yet they do not unequivocally confirm Bouck and Adelberg's model. It is possible that the limited DNA synthesis is necessary for other processes, and not for completing of the replication round. The results do not exclude also, that some residual DNA synthesis in female cells is of importance in mating.     

The communities of ectomycorrhizal fungal species associated with Betula pendula Roth and Pinus sylvestris L. growing in heavy-metal contaminated soils

Plant and Soil - Pioneer tree species such as Betula pendula and Pinus sylvestris encroach soils contaminated with heavy metals (HMs). This is facilitated by ectomycorrhizal fungi colonizing tree...     

Reproductive consequences of oral arsenate exposure during pregnancy in a mouse model

BACKGROUND: The second most common of all structural birth defects, neural tube defects (NTDs), affect approximately 2.6/1,000 births worldwide, and 1/1,000 births in the United States. Of the many environmental agents suspected of being teratogenic, arsenic (As) is capable of inducing NTDs in laboratory animals. METHODS: We evaluated the teratogenicity of oral exposure on embryonic day (E) 7.5 and E:8.5 to As 4.8, 9.6, or 14.4 mg/kg (as sodium arsenate) in an inbred mouse strain, LM/Bc/Fnn, that does not exhibit spontaneous neural tube malformations. Control and arsenic‐treated dams (20 per treatment group) were weighed daily, and evaluated for signs of maternal toxicity. Fetuses were evaluated for soft tissue and skeletal malformations. RESULTS: There was no maternal toxicity as evidenced by losses in maternal body weight following As treatment. However, liver weights were lower in all As‐treated groups, suggesting hepatotoxicity due to As exposure. The number of litters affected with an NTD (exencephaly) in each treatment group was: 0, 1, 5, and 9 for control, As 4.8, 9.6, or 14.4, respectively, which exhibited a positive linear trend. There was evidence for trends between As dose and the number of litters displaying vertebral (p<0.001) and calvarial (p<0.01) abnormalities, components of the axial skeleton. Mean fetal weight of all As‐treated groups was significantly less than in control. DISCUSSION: In our model, maternal oral treatment with As induced NTDs. It also significantly increased the frequency of axial skeletal anomalies in the offspring exposed in utero, and reduced mean fetal weight, without evidence of maternal toxicity. Birth Defects Res (Part B). © 2008 Wiley‐Liss, Inc.