Cellular and molecular mechanisms of cerebellar granule cell migration

The real-time observation of cell movement in brain slice preparations reveals that in the developing brain, postmitotic neurons alter their shape concomitantly with changes in the mode, direction, tempo, and rate of migration as they traverse different cortical layers. Although it has been hypothesized that orchestrated activities of multiple external cues and cell-cell contact are essential for controlling the cortical-layer-specific changes in cell migration, signaling mechanisms and external guidance cues related to the alteration of neuronal cell migration remain to be determined. In this article, we will first review recent studies on position-specific changes in granule cell behavior through different migratory terrains of the developing cerebellar cortex. We will then present possible roles for the coordinated activity of Ca²⁺ channels, NMDA type of glutamate receptors, and intracellular Ca²⁺ fluctuations in controlling cerebellar granule cell movement. Furthermore, we will discuss the crucial roles of brain-derived neurotrophic factor (BDNF), neuregulin (NRG), stromal cell-derived factor 1α (SDF-1α), ephrin-B2, and EphB2 receptor in providing directional cues promoting granule cell migration from the external granular layer (EGL) to the internal granular layer (IGL). Finally, we will demonstrate that endogenous somatostatin controls the migration of granule cells in a cortical layer-specific manner: Endogenous somatostatin accelerates granule cell movement near the birthplace within the EGL, but significantly slows down the movement near their final destination within the IGL.     

Integrated effects of fractional laser microablation and sonophoresis on skin immersion optical clearing in vivo

This study is aimed to find an approach for effective skin optical clearing in vivo using polyethylene glycol 300 (PEG‐300) as an optical clearing agent in combination with physical enhancers: fractional laser microablation (FLMA) and/or low‐frequency sonophoresis. In this study albino outbred rats were used. Light attenuation coefficient and optical clearing potential (OCP) of these approaches were evaluated in upper (from ~70 to ~200 μm) and middle (from ~200 to ~400 μm) dermis separately using optical coherence tomography. In 30 minutes, OCP of sonophoresis in combination with FLMA and PEG‐300 in the upper dermis was the maximal (2.3 ± 0.4) in comparison with other treatments in this time point. The most effective approach for optical clearing of middle dermis was PEG‐300 and sonophoresis; but the maximal value of OCP (1.6 ± 0.1) was achieved only in 90 minutes.     

Attraction of willow warblers to sawfly‐damaged mountain birches: novel function of inducible plant defences?

Plants wounded by invertebrate herbivores emit volatile compounds which invertebrate predators and parasitoids can utilize in locating herbivore prey or hosts. We studied the possibility that an analogical phenomenon might operate between plants and avian insectivores. We show that foliar damage by sawfly larvae on the mountain birch led a passerine bird (willow warbler) to prefer intact branches from trees with introduced larvae over intact branches from control trees. Besides olfaction, the UV vision of birds offers a possible mechanism, as some herbivore‐inducible leaf compounds, e.g. surface flavonoids, have UV spectral maxima well within the range of birds’ UV vision.     

Expression of photosynthesis- and senescence-related genes during leaf development and senescence in silver birch (Betula pendula) seedlings

Leaf development and senescence were studied in greenhouse-grown silver birch ( Betula pendula Roth) seedlings over a period of 7 weeks. Prior to the experiment, leaves from 100 seedlings were marked for five sampling dates. Timing of the developmental phases was studied with biochemical analyses of total soluble protein, Rubisco protein, chlorophyll concentration and at the level of gene expression related to photosynthesis, energy metabolism, ethylene synthesis and protein degradation. During the sampling period, an initial increase in photosynthetic capacity could be seen, when expression of the Rubisco small subunit gene ( RbcS ) and Rubisco protein (EC 4.1.1.39) were examined. Down-regulation of photosynthesis, visible as a decrease in Rubisco protein and RbcS mRNA, started soon after full expansion of the leaves and processes related to senescence followed. mRNA accumulation for the ethylene-forming enzyme 1-aminocyclopropane-1-carboxylic acid oxidase increased first during the onset of senescence. Protein degradation was observed as a loss of soluble proteins, with a simultaneous increase in the leucine aminopeptidase (EC 3.4.11.1) mRNA levels. The mRNA levels of ribonuclease-like pathogenesis-related protein 10 also increased clearly during senescence, but the mitochondrial phosphate translocator mRNA showed only a slight increase. Chlorophyll concentration of the leaves decreased after the mRNA levels of these senescence-related genes had become more abundant.