Culture of animal cells is a basic and important technique for research and development of biotechnological products. It is used to investigate cell physiology, proliferation, differentiation, and function of genes and regulation of their expression. Originally, scientists employ primary cell culture for research but primary cultured cells will be senescent or die after multiple passages. For this reason, they have to isolate new cells from tissues for each experiment. Not only greater cost of time and money is needed but also the result of experiment will vary due to the differences among batches of cells. As a result, a stable clone is essential for better research. The aim of our study was to establish an immortalized pig preadipocyte by introduction of a combination of telomerase and human papillomavirus type 16 E7 (HPV 16-E7). The primary porcine stromal vascular cells were isolated from back fat of a two-week hybrid pig (Landrace, Yorkshire, and Duroc). Retrovirus with human telomere reverse transcriptase (hTERT) or HPV 16-E7 were produced by GP2-293 packaging cell line. Retrovirus with hTERT infected primary cells at passage one and then, cells were selected by puromycin for two weeks. The cells that were alive after treatment of puromycin, indicating a successful expression of telomerase. We also confirmed that the telomerase mRNA was present in the selected cells. They were infected with HPV 16-E7 containing retrovirus, and selected by histidinol treatments. After histidinol selection, pure cell strains were obtained by cell cloning. The expression of hTERT and HPV 16-E7 mRNA in several clones of porcine preadipocyte were confirmed by RT-PCR. One of the clones grew very fast and could be induced to differentiate into adipocyte when treated with adipocyte differentiation medium (insulin, dexamethasone, rosiglitazone, containing DMEM/F12). We named this cell clone LYD1. Expression of preadipocyte factor 1 (pref-1), peroxisome proliferator activated-receptor gamma (PPARγ）, lipoprotein lipase（LPL） and adipocyte-specific fatty acid binding protein（aP2） were determined. Because LYD1 cells can express hTERT and HPV 16-E7 genes, we conjecture that LYD1 cells can proliferate indefinitely. These LYD1 cells could be induced to differentiate into adipocyte by differentiation medium. Therefore, if we can confirm the expression of adipocyte specific gene, it will become a suitable porcine preadipocyte clonal cell line.