M. Reiss et al., RESISTANCE OF HUMAN SQUAMOUS CARCINOMA-CELLS TO TRANSFORMING GROWTH-FACTOR-BETA-1 IS A RECESSIVE TRAIT, Proceedings of the National Academy of Sciences of the United Statesof America, 90(13), 1993, pp. 6280-6284
Because most human squamous carcinoma cell lines of the aerodigestive
and genital tracts are refractory to the antiproliferative action of t
ransforming growth factor beta1 (TGFbeta1) in vitro, we have begun to
identify the causes for resistance of squamous carcinoma cell lines to
TGFbeta1 by using somatic cell genetics. Two stable hybrid cell lines
(FaDu-HKc.1 and FaDu-HKc.2) were obtained by fusing a TGFbeta1-resist
ant human squamous carcinoma cell line, FaDu-Hyg(R), with a human papi
lloma virus 16-immortalized, TGFbeta1-sensitive, human foreskin kerati
nocyte cell line, HKc-neo(R). Whereas TGFbeta1 did not inhibit DNA syn
thesis in parental FaDu-Hyg(R) cells, it reduced DNA synthetic activit
y of HKc-neo(R), FaDu-HKc.1, and FaDu-HKc.2 cells by 75-85% (IC50, 2-5
pM). Although squamous carcinoma cells express lower than normal leve
ls of TGFbeta1 type II receptors on their cell surface, TGFbeta1 type
II receptor mRNA was detected in all four cell lines. Recessive genes
involved in TGFbeta1 signaling may be localized to the distal portion
of chromosome 18q, as this was the sole chromosomal region of homozygo
us deletion in parental FaDu-Hyg(R) cells. Furthermore, our previous o
bservation that mutant p53 decreases sensitivity of keratinocytes to T
GFbeta1 was supported by the finding that the level of the mutant p53
protein expressed by the hybrid cell lines was greatly reduced. In sum
mary, TGFbeta1 resistance of FaDu cells appears to be recessive and is
presumably due to the loss of one or more post-receptor elements of t
he signaling pathway.