The evolving biology of small molecules: controlling cell fate and identity

Small molecules have been playing important roles in elucidating basic biology and treatment of a vast number of diseases for nearly a century, making their use in the field of stem cell biology a comparatively recent phenomenon. Nonetheless, the power of biology-oriented chemical design and synthesis, coupled with significant advances in screening technology, has enabled the discovery of a growing number of small molecules that have improved our understanding of stem cell biology and allowed us to manipulate stem cells in unprecedented ways. This review focuses on recent small molecule studies of (i) the key pathways governing stem cell homeostasis, (ii) the pluripotent stem cell niche, (iii) the directed differentiation of stem cells, (iv) the biology of adult stem cells, and (v) somatic cell reprogramming. In a very short period of time, small molecules have defined a perhaps universally attainable naive ground state of pluripotency, and are facilitating the precise, rapid and efficient differentiation of stem cells into somatic cell populations relevant to the clinic. Finally, following the publication of numerous groundbreaking studies at a pace and consistency unusual for a young field, we are closer than ever to completely eliminating the need for genetic modification in reprogramming.     

长效和短效NO发生剂体内干预疟原虫红内期重要侵袭分子转录水平的观察

为探讨NO对疟原虫红内期侵袭相关分子MSP-1、AMA-1和RhopH complex转录水平的影响。通过雌性BALB／c小鼠腹腔感染1×10^6致死型约氏疟原虫P．yoelii 17XL,体内给予NO长效（NOC18）和短效（NOC5）发生剂进行干预后,纯化疟原虫成熟裂殖体,提取总RNA,通过Real—time PCR相对定量方法检测MSP-1、AMA—1和RhopH complex的转录水平。结果显示和正常感染组相比,NOC5处理后疟原虫侵入的关键分子MSP—1、AMA-1和RhopH complex的转录水平明显下降;而NOC18处理则未见这一现象。本研究结果提示NO抑制疟原虫侵袭关键分子的转录水平,进而可能下调疟原虫相应蛋白的表达,从而影响疟原虫的侵入过程。     

Probiotic (symbiotic) bacterial languages

Symbiotic gut microorganisms release of various soluble low molecular weight (LMW)molecules of different chemical nature (surface and exogenous proteins, nucleases, serpins, sirtuines, other enzymes, lectins, peptides, amines, bacteriocines, fatty and amino acids, lactones, furanons, miRNA, NO, etc). These LMW molecules are able to sense environment, interact with corresponding cell surface, membrane, cytoplasm and nucleic acid receptors, to reply quickly and coordinately by induction of special sets of genes, to support stability of host genome and microbiome, to modulate epigenomic regulation of gene phenotypic expression, to ensure the information exchange in numerous bacterial and bacteria-host systems playing an important role in the control for many genetic and physiological functions, biochemical and behaviour reactions, in supporting host health in general. Various symbiotic (probiotic) strains produce different spectrum of such LMW molecules. There is chemical and functional similarity between LMW molecules synthesized by host eukaryotic cells, indigenous and probiotic microorganisms and some micronutrients. It means many LMW compounds of different origin may be the universal regulators contributing to the transmission of information, quorum sensing effects, metagenome stability and epigenomic control for cell growth and development as well as phenotypic expression of different genes. Knowledge accumulated concerning molecular languages of symbiotic microorganisms allows us to better understand the mode of action of known probiotics and to design in principle novel probiotics (metabiotics) with increased health effectiveness. Now we are only at the beginning of a new era of molecular personal biotherapy and nutrition. Soon we can successfully manipulate both the host and its microbiota through interfering in their cross talk, stability and epigenomic regulation of expression of genes using various types of eukaryotic, prokaryotic and nutrition origin LMW molecules are capable to modulate genetic, metabolic and physiological activities.     

Antibody-targeted chemotherapy of B-cell lymphoma using calicheamicin conjugated to murine or humanized antibody against CD22

Antibody-targeted chemotherapy with immunoconjugates of calicheamicin is a clinically validated strategy in cancer therapy. This study describes the selection of a murine anti-CD22 mAb, m5/44, as a targeting agent, its conjugation to a derivative of calicheamicin (CalichDM) via either acid-labile or acid-stable linkers, the antitumor activity of CalichDM conjugated to m5/44, and its subsequent humanization by CDR grafting. Murine IgG1 mAb m5/44 was selected based on its subnanomolar affinity for CD22 and ability to be internalized into B cells. CalichDM conjugated to m5/44 caused potent growth inhibition of CD22⁺ human B-cell lymphomas (BCLs) in vitro. The conjugate of m5/44 with an acid-labile linker was more potent than an acid-stable conjugate, a nonbinding conjugate with a similar acid-labile linker, or unconjugated CalichDMH in inhibiting BCL growth. CalichDM conjugated to m5/44 caused regression of established BCL xenografts in nude mice. In contrast, both unconjugated m5/44 and a nonbinding conjugate were ineffective against these xenografts. Based on the potent antitumor activity of m5/44-CalichDM conjugates, m5/44 was humanized by CDR grafting to create g5/44, an IgG4 anti-CD22 antibody. Both m5/44 and g5/44 bound CD22 with subnanomolar affinity. Competitive blocking with previously characterized murine anti-CD22 mAbs suggested that g5/44 recognizes epitope A located within the first N-terminal Ig-like domain of human CD22. Antitumor efficacy of CalichDM conjugated to g5/44 against BCL xenografts was more potent than its murine counterpart. Based on these results, a calicheamicin conjugate of g5/44, CMC-544, was selected for further development as a targeted chemotherapeutic agent for the treatment of B-cell malignancies.Abbreviations AcBut 4-(4-Acetylphenoxy) butanoic acid - AcPAc (3-Acetylphenyl) acetic acid - ATC Antibody-targeted chemotherapy - BCL B-cell lymphoma - CalichDM N-Acetyl--calicheamicin dimethyl disulfide derivative(s) - CalichDMA CalichDM acid - CalichDMH CalichDM hydrazide - CDR Complementarity determining region - NHL Non-Hodgkins lymphoma - PBMC Peripheral blood mononuclear cell - TAA Tumor-associated antigen     

The development of an innervated epithelial barrier model using a human corneal cell line and ND7/23 sensory neurons

The corneal epithelium is a highly innervated tissue and hence in vitro models that mimic the effects of chemicals or radiation (e.g. ultra violet) on this important barrier should include consideration of the potential role of innervation. A sensory neural cell line, ND7/23, was incorporated into a 2D and 3D model of a corneal epithelium, using a human corneal cell line, and effects on barrier integrity were neither adverse nor stimulatory. In the 3D model the nerve cell bodies were separated from the corneal epithelium, via a porous polycarbonate insert membrane. The ND7/23 cells were induced to form neurites and cease division when cultured in the keratinocyte medium employed for the corneal cells. In the absence of calcium, the epithelial barrier function was lost, shown by enhanced fluorescein leakage and relocation of ZO-1 and E-cadherin from the cell membrane. At 60 microM calcium, and above, the corneal cells formed tight junctions, with peripheral membrane location of ZO-1 and E-cadherin. The presence of the ND7/23 cells did not compromise or enhance the time taken to form these junctions, when monitored at 24-h intervals over 72 h. Both male- and female-derived human corneal cell lines showed a similar tight junction functional response to different medium calcium concentrations in the presence or absence of the ND7/23 cells. Once differentiated in keratinocyte medium, patch-clamped ND7/23 cells were capable of producing a whole-cell current when exposed to low pH (5.4), indicative of the presence of active pH-gated ion channels.     

光学显微镜技术在活细胞单分子检测中的应用

单分子检测是一门以高度的时间以及空间分辨率研究生物单分子的技术。近来,科学技术的探索发展使我们可以观察、检测甚至操纵单个分子并且研究它们的构象变化和动力学行为。这一发展使得以前被传统系综研究体系平均化所隐藏的新信息被揭示出来。单分子检测技术的发展已经揭开了生命科学研究的新篇章。在本文中,我们将介绍有关活细胞中单分子检测技术的发展以及活细胞内单分子检测的现状。     

Increases in tumor necrosis factor-alpha following transient global cerebral ischemia do not contribute to neuron death in mouse hippocampus

The actions of tumor necrosis factor-alpha (TNF-alpha) produced by resident brain cells and bone marrow-derived cells in brain following a transient global ischemia were evaluated. In wild-type mice (C57Bl/6J) following 20 min ischemia with bilateral common carotid artery occlusion (BCCAo), TNF-alpha mRNA expression levels in the hippocampus were significantly increased at 3 h and 36 h and exhibited a biphasic expression pattern. There were no hippocampal TNF-alpha mRNA expression levels at early time points in either wild-type mice bone marrow transplanted (BMT)-chimeric-TNF-alpha gene-deficient (T/W) or TNF-alpha gene-deficient mice BMT-TNF-alpha gene-deficient mice (T/T), although TNF-alpha mRNA levels were detectable in T/W BMT mice at 36 h. Histopathological findings showed no intergroup differences between wild-type and TNF-alpha gene-deficient mice at 4 and 7 days after transient ischemia. In addition, nuclear factor-kappaB (NF-kappaB) was activated within 12 h after global cerebral ischemia, but electrophoretic mobility shift assays (EMSA) showed no intergroup differences between wild type and TNF-alpha gene-deficient mice. In summary, early hippocampal TNF-alpha mRNA expression may not be related to bone marrow-derived cells, and secondary TNF-alpha expression as early as 36 h after ischemia probably resulted mainly from endogenous brain cells and possibly a few bone marrow-derived cells. Although we cannot exclude the possibility of the TNF-alpha contribution to the physiologic changes of hippocampus after transient global ischemia, these results indicate that TNF-alpha does not influence the morphological changes of the hippocampal neurons under our study condition.     

DNA in phosphorus atom representation: the heteronomous double helices of poly(dA).poly(dT) and poly(dG).poly(dC) and simulation of the yeast genome and of a human chromosome DNA

We extracted phosphorus atom coordinates from the database of DNA crystal structures and calculated geometrical parameters needed to reproduce the crystal structures in the phosphorus atom representation. Using the geometrical parameters we wrote a piece of software assigning the phosphorus atom coordinates to the DNA of any nucleotide sequence. The software demonstrates non-negligible influence of the primary structure on DNA helicity, which may stand behind the heteromonous double helices of poly(dA).poly(dT) and poly(dG).poly(dC). In addition, the software is so simple that it makes possible to simulate the "crystal" structures of not only viral DNAs, but also the whole genome of Saccharomyces cerevisiae as well as the DNA human chromosome 22 having dozens of megabases in length.     

Virtual reality of stem cell transplantation to repair injured myocardium

The search for the fountain of youth continues into the 21st century with hopes that embryonic or hematopoietic stem cells (SC) will repair injured tissues in the heart, lungs, pancreas, muscles, nerves, liver, or skin. This commentary focuses on the potential of SC for inducing cardiac regeneration after myocardial injury, the barriers to SC treatment that need to be overcome for ensuring successful cardiac repair, and the experimental approaches that can be applied to the problem.     

MHC class I genes in the owl monkey: mosaic organisation, convergence and loci diversity

The MHC class I molecule plays an important role in immune response, pathogen recognition and response against vaccines and self- versus non-self-recognition. Studying MHC class I characteristics thus became a priority when dealing with Aotus to ensure its use as an animal model for biomedical research. Isolation, cloning and sequencing of exons 1–8 from 27 MHC class I alleles obtained from 13 individuals classified as belonging to three owl monkey species (A. nancymaae, A. nigriceps and A. vociferans) were carried out to establish similarities between Aotus MHC class I genes and those expressed by other New and Old World primates. Six Aotus MHC class I sequence groups (Ao-g1, Ao-g2, Ao-g3, Ao-g4, Ao-g5 and Ao-g6) weakly related to non-classical Catarrhini MHC were identified. An allelic lineage was also identified in one A. nancymaae and two A. vociferans monkeys, exhibiting a high degree of conservation, negative selection along the molecule and premature termination of the open reading frame at exon 5 (Ao-g5). These sequences high conservation suggests that they more likely correspond to a soluble form of Aotus MHC class I molecules than to a new group of processed pseudogenes. Another group, named Ao-g6, exhibited a strong relationship with Catarrhinis classical MHC-B-C loci. Sequence evolution and variability analysis indicated that Aotus MHC class I molecules experience inter-locus gene conversion phenomena, contributing towards their high variability.