Spatially distinct functions of PAX6 and NKX2.2 during gliogenesis in the ventral spinal cord

During ventral spinal cord (vSC) development, the p3 and pMN progenitor domain boundary is thought to be maintained by cross-repressive interactions between NKX2.2 and PAX6. Using loss-of-function analysis during the neuron-glial fate switch we show that the identity of the p3 domain is not maintained by the repressive function of NKX2.2 on Pax6 expression, even in the absence of NKX2.9. We further show that NKX2.2 is necessary to induce the expression of Slit1 and Sulfatase 1 (Sulf1) in the vSC in a PAX6-independent manner. Conversely, we show that PAX6 regulates Sulf1/Slit1 expression in the vSC in an NKX2.2/NKX6.1-independent manner. Consequently, deregulation of Sulf1 expression in Pax6-mutant embryos has stage-specific implications on neural patterning, associated with enhancement of Sonic Hedgehog activity. On the other hand, deregulation of Slit1 expression in gliogenic neural progenitors leads to changes in Astrocyte subtype identity. These data provide important insights into specific functions of PAX6 and NKX2.2 during glial cell specification that have so far remained largely unexplored.     

An overview of epigenetics and chemoprevention

It is now appreciated that both genetic alteration, e.g. mutations, and aberrant epigenetic changes, e.g. DNA methylation, cause cancer. Epigenetic dysregulation is potentially reversible which makes it attractive as targets for cancer prevention. Synthetic drugs targeting enzymes, e.g. DNA methyltransferase and histone deacetylase, that regulate epigenetic patterns are active in clinical settings. In addition, dietary factors have been suggested to have potential to reverse aberrant epigenetic patterns. Uncovering the human epigenome can lead us to better understand the dynamics of DNA methylation in disease progression which can further assist in cancer prevention.     

Ectopic expression of Nkx2.5 suppresses the formation of the sinoatrial node in mice

The sinoatrial node (SAN), functionally known as the pacemaker, regulates the cardiac rhythm or heartbeat. Several genes are expressed in the developing SAN and form a genetic network regulating the fate of the SAN cells. The short stature homeobox gene Shox2 is an important player in the SAN genetic network by regulating the expression of different cardiac conduction molecular markers including the early cardiac differentiation marker Nkx2.5. Here we report that the expression patterns of Shox2 and Nkx2.5 are mutually exclusive from the earliest stages of the venous pole and the SAN formation. We show that tissue specific ectopic expression of Shox2 in the developing mouse heart downregulates the expression of Nkx2.5 and causes cardiac malformations; however, it is not sufficient to induce a SAN cell fate switch in the working myocardium. On the other hand, tissue specific overexpression of Nkx2.5 in the heart leads to severe hypoplasia of the SAN and the venous valves, dis-regulation of the SAN genetic network, and change of the SAN cell fate into working myocardium, and causes embryonic lethality, recapitulating the phenotypes including bradycardia observed in Shox2^−/− mutants. These results indicate that Nkx2.5 activity is detrimental to the normal formation of the SAN. Taken together, our results demonstrate that Shox2 downregulation of Nkx2.5 is essential for the proper development of the SAN and that Shox2 functions to shield the SAN from becoming working myocardium by acting upstream of Nkx2.5.     

New horizons in schizophrenia treatment: autophagy protection is coupled with behavioral improvements in a mouse model of schizophrenia

Autophagy plays a key role in the pathophysiology of schizophrenia as manifested by a 40% decrease in BECN1/Beclin 1 mRNA in postmortem hippocampal tissues relative to controls. This decrease was coupled with the deregulation of the essential ADNP (activity-dependent neuroprotector homeobox), a binding partner of MAP1LC3B/LC3B (microtubule-associated protein 1 light chain 3 β) another major constituent of autophagy. The drug candidate NAP (davunetide), a peptide fragment from ADNP, enhanced the ADNP-LC3B interaction. Parallel genetic studies have linked allelic variation in the gene encoding MAP6/STOP (microtubule-associated protein 6) to schizophrenia, along with altered MAP6/STOP protein expression in the schizophrenic brain and schizophrenic-like behaviors in Map6-deficient mice. In this study, for the first time, we reveal significant decreases in hippocampal Becn1 mRNA and reversal by NAP but not by the antipsychotic clozapine (CLZ) in Map6-deficient (Map6^+/−) mice. Normalization of Becn1 expression by NAP was coupled with behavioral protection against hyperlocomotion and cognitive deficits measured in the object recognition test. CLZ reduced hyperlocomotion below control levels and did not significantly affect object recognition. The combination of CLZ and NAP resulted in normalized outcome behaviors. Phase II clinical studies have shown NAP-dependent augmentation of functional activities of daily living coupled with brain protection. The current studies provide a new mechanistic pathway and a novel avenue for drug development.     

Vax基因与视觉神经系统的早期发育

视觉神经系统的发育与形成是一个相当复杂的过程,其基因调控机理是神经发育生物学领域的研究热点.Vax基因家族是新近发现的一类与视觉神经系统发育密切相关的同源异型盒基因,调控前脑、眼原基、视泡、视柄以及视网膜的发育.Vax-1参与色素上皮和视柄的分化;Vax-2则在视网膜及视神经背腹轴建立方面起重要作用.Vax基因的研究将对阐明视觉神经系统发育调控机制提供新的认识.     

Linkage Mapping of DNA Markers Generated with Specific and Non-Specific Gene Primers in Soybean

Polymerase chain reaction (PCR) has been used extensively in the construction of linkage maps for many cultivated crops including soybean, [Glycine max (L.) Merr]. In this study, four sets of oligonucleotide primer pairs of known genes (pearl millet Adh 1, nodule specific proline-rich protein, Drosophila homeobox, heat shock protein), several different combinations from kits A, D, E, and J of arbitrary primers and five primer pairs of soybean simple sequence repeats of varying length (Satt 9, Satt 20, Satt 42, Satt 64, and Satt 30) were utilized in PCR to identify molecular markers which were then used to construct a genetic linkage map. DNA for the PCR reactions was isolated from 65 recombinant inbred soybean lines resulting from crossing PI 290,136 and BARC-2 (Rj ₄ ), followed by self-pollination for seven generations without selection. Mapmaker 3.0, a computer package, was used for construction of the linkage map. A total of 43 polymorphic markers were identified; 30 markers were linked and distributed among 5 linkage groups while 13 markers were unlinked. Arbitrary primers revealed more polymorphisms than specific primers. A combination of arbitrary primers A5 and A18 revealed the maximum number of polymorphic bands. Five observed linkage groups can be expanded in future soybean research by using additional markers.     

人同源盒基因NKX3.1对前列腺癌细胞的诱导凋亡作用

构建人同源盒基因NKX3.1 cDNA真核表达载体,研究其在前列腺癌细胞PC-3、LNCaP 中的表达及对细胞的促凋亡作用.以人前列腺癌细胞LNCaP细胞中的总RNA为模板,RT-PCR扩增NKX3.1基因全长编码片段,将NKX3.1 cDNA重组到真核表达载体pcDNA3.1（+）中; 将pcDNA3.1-NKX3.1表达载体瞬时转染前列腺癌细胞PC-3和LNCaP 细胞,用RT-PCR和Western印迹检测NKX3.1 cDNA在转录水平和蛋白水平的表达;绘制细胞生长曲线,观察NKX3.1对前列腺癌细胞增殖的抑制作用;用DNA/ladder和流式细胞术检测NKX3.1对前列腺癌细胞凋亡的影响,进一步用RT PCR检测凋亡相关基因caspase3、caspase8、caspase9、Apaf1、survivin和Bcl2表达的变化.人同源盒基因NKX3.1 cDNA真核表达载体pcDNA3.1-NKX3.1经酶切及测序鉴定正确. pcDNA3.1-NKX3.1转染PC-3和LNCaP细胞后,经RT-PCR和Western印迹证明能有效表达NKX3.1.生长曲线显示,前列腺癌细胞转染NKX3.1 cDNA后细胞增殖受到抑制;前列腺癌细胞转染NKX3.1 cDNA 48 h后,DNA电泳呈现具有凋亡特征的DNA ladder;流式细胞术检测出现明显凋亡峰;RT-PCR检测凋亡相关基因.结果显示,caspase3、caspase8、caspase9基因表达明显增加,Bcl2基因表达明显减少.本研究成功构建了真核表达载体pcDNA3.1 NKX3.1, 转染PC3和LNCaP细胞后能有效表达,并对细胞具有诱导凋亡作用     

同源异型盒基因Emx在人胎盘绒毛膜中的扩增

以鹌鹑Emx cDNA片段作为探针,对人胎盘绒毛膜细胞和成人血细胞的基因组DNA进行DNA印迹分析. 结果表明,在人胎盘绒毛膜细胞中Emx基因剂量较成人血细胞高6倍,显示Emx基因在人胎盘绒毛膜细胞基因组中发生了扩增.