The concept of a non-secreted cytoplasmic-bound form of alpha-fetoprotein is not a new notion in AFP biological activities. Cytoplasmic AFP (CyAFP) is a long known but forgotten protein in search of a function other than a histochemical biomarker. In this report, CyAFP is presented as an "old" protein with a newly described intracellular function. In 1976, CyAFP was shown to be a product of hepatoma cells utilizing 14Cleucine incorporation and demonstrated by autoradiographic procedures. The synthesis of CyAFP without secretion was demonstrated to occur in both malignant and non-malignant cells encompassing hepatomas, ascite fluid cells, immature rodent uterus, MCF-7 breast cancers, and cytosols from human breast cancer patients. Using computer protein matching and alignments in AFP versus members of the nuclear receptor superfamily, a consecutive series of leucine zipper (heptad) repeats in AFP was previously reported, suggesting the possibility for protein-to-protein interactions. The potential for heptad heterodimerization between protein-binding partners provided the rationale for proposing that CyAFP might have the capability to form molecular hetero-complexes with cytoplasmic based transcription factors. More recent investigations have now provided experimental evidence that CyAFP is capable of colocalizing and interacting with transcription-associated factors. Such proteins can modulate intracellular signaling leading to regulation of transcription factors and initiation of growth in human cancer cells. Although circulating serum AFP is known as a growth-enhancing factor during development, cytoplasmic AFP has a lethal role in the oncogenesis, growth, and metastasis of adult liver cancer.
Keywords: Alpha-fetoprotein; Caspase-3; Dimerization; GADD153; Heptad repeats; PI3K/AKT; PTEN; Retinoic acid receptor.