Stem cell transplantation programme at Singapore General Hospital.

The adult transplant programme at Singapore General Hospital (SGH) was established in 1985 and more than 820 transplants have been performed to date. An average of about 60 adult transplants (autologous and allogeneic) are performed each year. Transplants offered at SGH run the range from autologous to mismatched cord and unrelated transplants. Special interests of the transplant programme include non-myeloablative transplants in aplastic anaemia, cell therapy protocols including cytokine-induced killer cells, patterns of GVHD, cord blood transplantation for autoimmune diseases and graft engineering. A cGMP (good manufacturing practice) cell therapy laboratory was recently established to facilitate bench-to-bedside translational cell therapy trials. A BMT consortium has been formed among the various paediatric and adult transplant centres for harmonization of protocols and research activities.

Evolution of natural killer cell receptors: coexistence of functional Ly49 and KIR genes in baboons.

Natural killer (NK) cells represent an important first line of defense against viruses and malignancy [1]. NK cells express a variety of inhibitory and activating receptors that interact with classical major histocompatibility complex (MHC) class I molecules on potential target cells and determine the NK cell response [2-4]. Mouse NK receptors are encoded by the C-type lectin multigene family Ly49. However, in humans, a completely different family of receptors, the immunoglobulin-like killer inhibitory receptors (KIRs), performs the same function [2-4]. One Ly49-like gene, Ly49L, exists in humans but is incorrectly spliced and assumed to be nonfunctional [5, 6]. Mouse KIR-like genes have not been found, and evidence suggests that the primate KIRs amplified after rodents and primates diverged [7, 8]. Thus, two structurally dissimilar families, Ly49 and KIR, have evolved to play similar roles in mouse and human NK cells. This apparent example of functional convergent evolution raises several questions. It is unknown, for example, when the Ly49L gene became nonfunctional and if this event affected the functional evolution of the KIRs. The distribution of these gene families in different mammals is unstudied, and it is not known if any species uses both types of receptors. Here, we demonstrate that the Ly49L gene shows evidence of conservation in other mammals and that the human gene likely became nonfunctional 6-10 million years ago. Furthermore, we show that baboon lymphocytes express both full-length Ly49L transcripts and multiple KIR genes.

Structural investigations of DNA-histone complexes. A spin label study.

We have prepared two acridine spin labels, 6-chloro-9-[4-(2,2,6,6-tetramethyl-1-piperidinyloxy)amino]-2-methoxyacridine (I) and 9-[4-(2,2,6,6-tetramethyl-1-piperidinyloxy)amino]-acridine (II) and have used them to study the binding of lysine-rich histone (H1) to DNA using electron spin resonance (ESR). ESR spectra of I in the presence of DNA, polydA-polydT and polydG-polydC were characteristic of highly immobilized radicals with maximum hyperfine splitting (2T11) of 59G, 62.5G and 59G respectively. However, the 2T11 values for II in the same systems were 55.5G, 55.5G and 62.5G respectively. Addition of H1 at a low P/D released ionically bound I and II from DNA. In the presence of 0.1 M NaCl, which prevents ionic binding, H1 still caused a significant release of bound II but not I from DNA. At a high P/D (with or without NaCl) H1 caused no displacement of either I or II. Our findings suggest that H1 does not affect the intercalating sites and probably binds to one of the grooves of DNA, most probably the major groove, and specifically in the A-T-rich regions.