Application of modified closed biopsy in rabbit model of VX2-transplanted bone tumor.

Background: This study was aimed to explore the application value of modified closed biopsy technique in puncture biopsy of rabbit VX2 transplanted bone tumor model.

Methods: VX2 tumor was transplanted into the bilateral tibia of 30 rabbits through the tibial plateau to make the model of VX2 transplanted bone tumor. Seven days after modeling, the proximal tibia biopsy was performed under the guidance of X-ray, and the biopsy specimen was examined pathologically.

ATP induces synaptic gene expressions in cortical neurons: transduction and transcription control via P2Y1 receptors.

Studies in vertebrate neuromuscular synapses have revealed previously that ATP, via P2Y receptors, plays a critical role in regulating postsynaptic gene expressions. An equivalent regulatory role of ATP and its P2Y receptors would not necessarily be expected for the very different situation of the brain synapses, but we provide evidence here for a brain version of that role. In cultured cortical neurons, the expression of P2Y(1) receptors increased sharply during neuronal differentiation.

Regulation of a transcript encoding the proline-rich membrane anchor of globular muscle acetylcholinesterase. The suppressive roles of myogenesis and innervating nerves.

The transcriptional regulation of proline-rich membrane anchor (PRiMA), an anchoring protein of tetrameric globular form acetylcholinesterase (G(4) AChE), was revealed in muscle during myogenic differentiation under the influence of innervation. During myotube formation of C2C12 cells, the expression of AChE(T) protein and the enzymatic activity were dramatically increased, but the level of G(4) AChE was relatively decreased. This G(4) AChE in C2C12 cells was specifically recognized by anti-PRiMA antibody, suggesting the association of this enzyme with PRiMA.

Transcriptional control of different acetylcholinesterase subunits in formation and maintenance of vertebrate neuromuscular junctions.

Acetylcholinesterase (AChE; EC 3.1.1.

ATP potentiates agrin-induced AChR aggregation in cultured myotubes: activation of RhoA in P2Y1 nucleotide receptor signaling at vertebrate neuromuscular junctions.

At vertebrate neuromuscular junctions, ATP is known to stabilize acetylcholine in the synaptic vesicles and to be co-released with it. We have shown previously that a nucleotide receptor, P2Y(1) receptor, is localized at the nmjs, and we propose that this mediates a trophic role for synaptic ATP there. In cultured myotubes, the activation of P2Y(1) receptors modulated agrin-induced acetylcholine receptor (AChR) aggregation in a potentiation manner.

cDNA encodes Xenopus P2Y(1) nucleotide receptor: expression at the neuromuscular junctions.

A cDNA encoding P2Y(1) receptor was isolated by cross-hybridization with chicken homolog. The deduced amino acid sequence of P2Y(1) receptor with 361 amino residues is 80-85% identical to human, rodent and avian homologs. When the cDNA was expressed in mammalian cells, the activation of P2Y(1) receptor by adenine nucleotides stimulated the accumulation of inositol phosphate, and adenosine 3',5'-bismonophosphate (A3P5P) or other antagonists blocked its action; these pharmacological properties showed resemblance of P2Y(1) receptor family in higher vertebrate.