Construction of self-recognizing regulatory T cells from conventional T cells by controlling CTLA-4 and IL-2 expression.

Thymus-produced CD4(+) regulatory T (Treg) cells, which specifically express the transcription factor forkhead box p3, are potently immunosuppressive and characteristically possess a self-reactive T-cell receptor (TCR) repertoire. To determine the molecular basis of Treg suppressive activity and their self-skewed TCR repertoire formation, we attempted to reconstruct these Treg-specific properties in conventional T (Tconv) cells by genetic manipulation. We show that Tconv cells rendered IL-2 deficient and constitutively expressing transgenic cytotoxic T lymphocyte-associated antigen 4 (CTLA-4) were potently suppressive in vitro when they were preactivated by antigenic stimulation.

Use of in vivo insert molding to form a jellyfish valve leaflet.

We developed an in vivo insert molding technique to form tissue-derived biomaterials into the desired shape, and with sufficient strength and durability, for use in artificial organs. Molds of acrylic resin with inserted velour cloth were implanted under the skin of goats to form a circular leaflet for a jellyfish valve. The valve leaflets were successfully produced in the molds after 17-60 days.

A nonpulsatile total artificial heart with 1/R control.

A total artificial heart (TAH) using continuous flow pumps is promising for size reduction of the device; however, the role of pulsatility in TAHs has been a subject of great debate. Additionally, it is unclear whether, in a nonpulsatile TAH, a physiological control method such as 1/R control can keep the experimental animal in good condition. To realize a nonpulsatile TAH with 1/R control, the artificial valves were removed from undulation pump total artificial hearts (UPTAHs), which can produce both pulsatile and nonpulsatile flows using a single device.