The OX40 ligand (OX40L), a member of TNF superfamily, is a costimulatory molecule involved in T cell activation. It is expressed on antigen presenting cells including dendritic cells (DC) and activated B cells. This molecule has been reported to provide potent costimulation in APC-T cell interactions upon binding to its cognate receptor, OX40 which is expressed by activated T cells. In this study systemic administration of OX40L fusion protein was used in the treatment of established murine subcutaneous colon and breast carcinomas.Intra-peritoneal injection of mOX40L fusion protein significantly inhibited the growth of subcutaneous 3 day established colon (CT26) and breast (4T1) carcinomas which was dose and route dependent. Effective therapy with OX40L required the the presence of tumour for 3 days prior to OX40L, concomitant therapy, given at the same time (day 0) as tumour cells was less effective. Furthermore, therapy with OX40L fusion protein was effective in significantly reducing CT26 experimental lung metastasis. In addition, inhibition of CT26 and 4T1 tumours in response to therapy with OX40L was significantly enhanced by combination treatment with intra-tumour injection of a DISC-HSV vector encoding mGM-CSF. Tumour rejection in response to OX40L therapy was correlated with splenocyte CTL activity against the gp70 CT26 tumour associated antigen. In vivo depletion studies demonstrated the requirement for both CD4+ and CD8+ T cells for effective OX40L therapy.Collectively these results demonstrate the potential role of the OX40L in cancer immunotherapy.3
We report a family of anophthalmia with ocular and extraocular manifestations. The proband, his three sisters, and two sons had anophthalmia and preaxial polydactyly in the right hand. Cytogenetic analysis was done for the proband and two of his sons, one of whom was affected. Another male child was affected but was not available for cytogenetic analysis. Karyotypes of both affected individuals showed deletion on long arm of 14q22q23. Literature review shows four cases of anophthalmia with extra ocular anomalies associated with 14q (q22q23) deletion. Recently it has been suggested that the human homeobox gene, SIX6, and the BMP-4 gene are responsible for eye development. Both are located in the chromosome 14q22.3-q23 region. Deletion in this region has been known to be associated with anophthalmia and pituitary anomalies. This is the first family of anophthalmia, which showed polydactyly with a chromosomal deletion in the 14q22-q23 region and its familial transmission in two generations with a total of six affected individuals.
We investigate the effects of consanguinity and population substructure on genetic health using the UK Asian population as an example. We review and expand upon previous treatments dealing with the deleterious effects of consanguinity on recessive disorders and consider how other factors, such as population substructure, may be of equal importance. For illustration, we quantify the relative risks of recessive lethal disorders by presenting some simple calculations that demonstrate the effect 'reproductive compensation' has on the maintenance of recessive alleles. The
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