Nerve growth factor regulates expression of neuropeptide genes in adult sensory neurons

Nerve growth factor (NGF) is a trophic molecule essential for the survival of sympathetic and sensory neurons during ontogeny. The extent to which NGF is involved in the maintenance or regulation of the differentiated phenotypes of mature peripheral neurons is much less clear, however. Biochemical analysis of the actions of NGF upon peripheral neurons has been hampered by the lack of a preparation of neuronal cells that are responsive to NGF but do not require it for survival. We report here that in adult dorsal root ganglion neurons, which can be isolated, enriched and maintained in culture in the absence of neuronal growth factors, the expression of mRNAs encoding the precursors of two neuropeptides, substance P and calcitonin gene-related peptide is regulated by NGF. Our results provide the first direct evidence of a continuous dynamic role for NGF in regulation of peptide neurotransmitter/neuromodulator levels in mature sensory neurons.     

Correlation between immunoglobulin light chain expression and variant translocation in Burkitt's lymphoma

Burkitt's-type lymphomas-leukaemias (BL) are monoclonal proliferations of malignant B lymphocytes. Irrespective of whether they carry the Epstein-Barr virus (EBV) genome, these tumour cells have been shown consistently to have one of the specific reciprocal chromosome translocations, t(8; 14), t(2; 8) or t(8; 22), involving the long arm of chromosome 8 (on 8q24) and chromosome 14, 2 or 22 (on 14q32, 2p12 and 22q11, respectively). The latter chromosomes have been shown recently to carry genes for immunoglobulin (Ig) heavy chains, and kappa and lambda light chains, respectively. Furthermore, the localization of kappa light chains within 2pcen-2p13 encompasses the breakpoint observed in Burkitt's translocation (2p12). It was therefore considered of interest to determine whether the expression of immunoglobulin chains in BL cells is related to the type of chromosomal anomalies observed. We report here that there is a direct relationship between expression of immunoglobulin light chains and specific type of translocation: BL cells with t(8; 22) express lambda chains, whereas those with t(2; 8) express kappa chains.     

Induction of light chain expression in a pre-B cell line by fusion to myeloma cells

Pre-B cells, the first cells in the B-lymphocyte differentiation pathway which express immunoglobulin, have recently been shown to express cytoplasmic mu heavy chain (H) but not light chain (L). If, as is believed, pre-B cells are the precursors of immature B lymphocytes, which express surface IgM, the differentiation of pre-B cells to immature B lymphocytes must be accompanied by the expression of light chains. In this case, it should be possible for the progeny of a single pre-B cell to express a variety of light chains in association with the same heavy chain. We have tested this hypothesis by hybridizing a pre-B cell line 18-81 expressing only cytoplasmic mu chains with variant myeloma cells which do not express light chains. Hybridization of B-lymphoma cells with myeloma cells usually produces a hybrid with the phenotype of the more differentiated parent. In this case, the fusion resulted in the induction of light chain expression from the 18-81 genes and we have been able to demonstrate that independent hybrids express different light chains, in accordance with the hypothesis that a pre-B cell committed to expression of a single mu heavy chain can generate progeny expressing different slight chains.     

人心室肌球蛋白轻链1基因的克隆及其体外的表达与纯化

通过聚合酶链式反应方法扩增人心室肌球蛋白轻链1的基因片段,并将其克隆到pET-22b质粒,构建表达重组体,转化大肠杆菌BL21细胞,转化子细胞经IPTG诱导,目的蛋白在大肠杆菌中得到高效表达,凝胶成像扫描检测,其表达量接近细胞总蛋白的40%,经Ni2+亲和层析使目的蛋白得到纯化。