细胞技术

Gene expression patterns change dramatically in aging and age-related events. The DNA microarray is now recognized as a useful device in molecular biology and widely used to identify the molecular mechanisms of aging and the biological effects of drugs for therapeutic purpose in age-rel ...

RNA-seq or transcriptome analysis of individual cells and small-cell populations is essential for virtually any biomedical field. It is especially critical for developmental, aging, and cancer biology as well as neuroscience where the enormous heterogeneity of cells present a sig ...

Cellular aging is a fundamental biological process, and mass spectrometry-based proteomics has been widely used for the global identification of age-related changes in a variety of tissues. The proteomic profiling of senescent skeletal muscles has revealed a variety of alterations ...

Life expectancy has always been associated to several determinants, such as environmental and genetic factors. Studies have related human lifespan as being 25–32 % due to genetic polymorphisms between individuals associated to longevity and aging. Nonetheless, no single gene will c ...

Metabolomic analyses can provide valuable information about the internal metabolism of an organism; however, these studies can become quickly complicated by the large number of metabolites that are often detected. Overcoming this limitation requires high-resolution analyt ...

Real-time bioluminescence functional imaging holds great promise for regenerative medicine because it improves the researcher’s ability to analyze and understand the healing process. Using transgenic mice coupled with gene-modified cells, one can employ this method to monit ...

Transgenic expression of catalase in mitochondria using a transgenic strategy extends life span and prevents aging-related pathology in mice. However, transgenic overexpression is not suitable for a clinical application. Adeno-associated virus (AAV) is the most promising gene ...

The methodology of testing antiaging drugs in laboratory mice is presented. It is based on more than 40-year-long authors’ experience in the field and includes the selection of mouse strain, sex, age at start of treatment, housing conditions, design of the long-term study, some noninvasive meth ...

Normal somatic cells do not divide indefinitely and have their finite replicative lifespan. This property leads to an eventual arrest of cell division termed cell senescence. Human diploid fibroblasts offer a typical model for studying cell senescence in vitro. Various approaches to e ...

Cellular senescence is a state of permanent cell cycle arrest, which has been shown to prevent neoplastic transformation. Oncogenes are pro-proliferative genes that promote survival and proliferation of cancer cells. Paradoxically, introduction of an activated oncogene leads ...

The use of stem cells for cardiac regeneration is a revolutionary, emerging research area. For proper function as replacement tissue, stem cell-derived cardiomyocytes (SC-CMs) must electrically couple with the host cardiac tissue. Electrophysiological mapping techniques, in ...

Cardiac resident stem/progenitor cells are critical to the cellular and functional integrity of the heart by maintaining myocardial cell homeostasis. Given their central role in myocardial biology, resident cardiac progenitor cells have become a major focus in cardiovascular r ...

Cardiovascular disease remains a major cause of morbidity and mortality with substantial economic cost. There remains a need for therapeutic improvement for patients refractory to revascularization and those who redevelop occlusions following revascularization. Early e ...

Vascular regeneration with bone marrow (BM) stem/progenitor cells is one of the promising therapeutic strategies for myocardial repair in cardiovascular diseases. Endothelial progenitor cells (EPCs) have demonstrated the beneficial effects on ischemia-induced myocar ...

An overview for the use of stem cells for myocardial repair and regeneration is provided. The overview provides the rationale for use of stem cells in myocardial repair. Potential stem cell types and technological challenges are highlighted.

Stem cell therapy for repair of damaged cardiac tissue is an attractive option to improve the health of the growing number of heart failure patients. Mesenchymal stem cells (MSCs) possess unique properties that may make them a better option for cardiac repair than other cell types. Unlike other a ...

While stem cells in culture have been predominately controlled through the addition of soluble factors to the media, the impact of the extracellular matrix on stem cell renewal and differentiation has recently come to the forefront. In vivo, cells adhere and respond to cues that are on the nanosc ...

Extracellular recordings acquired from electrodes placed on the surface of cardiac tissue have traditionally been used to study the electrophysiological properties of the tissue. While this technique has been used in several studies that have increased our understanding of card ...

Embryonic stem (ES) cells have therapeutic potential in disorders of cellular loss such as myocardial infarction, type I diabetes and neurodegenerative disorders. ES cell biology in living subjects was largely poorly understood until incorporation of molecular imaging into the f ...

In the mid-1980s, iron oxide nanoparticles were developed as contrast agents for diagnostic imaging. In the last two decades, established methods to label cells with superparamagnetic iron oxides (SPIOs) have been developed to aid in targeted delivery and tracking of stem cell therapies. ...