Short-term memory of danger signals or environmental stimuli in mesenchymal stem cells: implications for therapeutic potential.

Mesenchymal stem/stromal cells (MSCs) possess some characteristics of immune cells, including a pro-inflammatory phenotype, an immunosuppressive phenotype, antibacterial properties and the expression of Toll-like receptor proteins. Here we show that, similar to immune cells, MSCs retain information from danger signals or environmental stimuli for a period of time. When treated with the pro-inflammatory factors lipopolysaccharide (LPS) or tumor necrosis factor-α (TNF-α), MSCs display increased expression of IL-6, IL-8 and MCP-1.

[Preliminary study of in vitro chondrogenesis by co-culture of chondrocytes and adipose-derived stromal cells].

Objective: To explore the feasibility of in vitro chondrogenesis by co-culture of chondrocytes and adipose-derived stromal cells (ADSCs) so as to confirm the hypothesis that chondrocytes can provide chondrogenic microenvironment to induce chondrogenic differentiation of ADSCs.

Methods: Human ADSCs and porcine auricular chondrocytes were in vitro expanded respectively and then were mixed at the ratio of 7:3 (ADSCs: chondrocytes). 200 microl mixed cells (5.

[Preliminary study on the phenomenon of epidermal stem cell ectopy in expanded skin].

Objective: To observe the differentiation and distribution of epidermal stem cell (ESC) after skin soft tissue expansion, and to initially probe into the growth mechanism of expanded skin tissue.

Methods: Samples of normal skin and expanded skin (mean effusion period 45 days) were harvested from head and cervical region in 15 patients who underwent II stage surgery after skin expansion. Samples were divided into scalp adjacent to the center of expander group (expanded scalp, 3 cm from the vertical axis of the expander), scalp from lateral part of the expander group (expanded scalp, 5 - 7 cm lateral to the vertical axis of the expander), cervical skin expansion group, un-expanded scalp control group, and un-expanded cervical skin control group, according to the position of skin harvested.

[Preliminary investigation on the dynamic change in epidermal stem cells under mechanical stress in vivo].

Objective: To observe the distribution of epidermal stem cell (ESC) after soft tissue expansion, and to explore dynamic change in ESC under mechanical stress and kinetic mechanism of skin expansion.

Methods: Skin samples were collected from patients after expansion of the scalp. They were divided into three groups: A group (scalp harvested 3 cm away from the center of dilator), B group (scalp tissues at the edge of dilator), and control group (scalp without dilatation).

Progress of cellular dedifferentiation research.

Differentiation, the stepwise specialization of cells, and transdifferentiation, the apparent switching of one cell type into another, capture much of the stem cell spotlight. But dedifferentiation, the developmental reversal of a cell before it reinvents itself, is an important process too. In multicellular organisms, cellular dedifferentiation is the major process underlying totipotency, regeneration and formation of new stem cell lineages.

[Isolation, culture and identification of adult epidermal stem cell].

Objective: To explore and establish a new method of isolation, culture, and identification of adult epidermal stem cell in vitro for the provision of seed-cells in tissue engineering of skin.

Methods: Epidermis was obtained by digesting human foreskin with protease and it was dissociated into single cells with trypsin and ethylenediaminetetraacetic acid (EDTA). These single epidermis cells were inoculated onto human collagen IV coated flasks and cultured at 37 degrees C in a humidified atmosphere containing 5% CO(2).