General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
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Gene ID | 7268 |
Name | TTC4 |
Synonymous | -;tetratricopeptide repeat domain 4;TTC4;tetratricopeptide repeat domain 4 |
Definition | TPR repeat protein 4|tetratricopeptide repeat protein 4 |
Position | 1p32.3 |
Gene type | protein-coding |
Title |
Abstract |
TTC4, a novel candidate tumor suppressor gene at 1p31 is often mutated in malignant melanoma of the skin. | A novel candidate tumor suppressor gene, TTC4, on chromosome 1p31 has been described recently. Since aberrations in this region have been detected in malignant melanoma, we investigated DNA of paraffin-embedded sections from 16 typical naevi, 19 atypical naevi, 32 primary melanomas (15 superficial spreading melanomas, 17 nodular melanomas) and 25 metastases and DNA from four melanoma cell lines by PCR and direct sequencing analysis for mutations in all exons of TTC4. Tumors comprised a wide range of thickness (Breslow index) and Clark levels. No mutations could be detected in typical or atypical naevi, but we found seven different point mutations in the tumor samples, six of them causing an amino acid change. Ten melanoma samples belonging to nine patients showed one or more of these mutations. In detail, in six of 25 metastases, in two of 17 nodular melanomas and in two of 15 superficial spreading melanomas point mutations could be detected. In two cell lines, a loss of a whole exon could be demonstrated and in one cell line we found a point mutation. In addition, three polymorphisms were found. Our findings indicate that TTC4 may participate in the pathogenesis of malignant melanomas of the skin. |
Nuclear transport of protein TTC4 depends on the cell cycle. | TTC4 (tetratricopeptide repeat domain protein 4) is a putative tumor suppressor involved in the transformation of melanocytes. At present, the relationships between TTC4 and DNA replication proteins are largely unknown, as are the tissue distribution and subcellular localization of TTC4. Using reverse transcription with the polymerase chain reaction, we have observed that the murine TTC4 gene is ubiquitously expressed. Analysis of the TTC4 subcellular localization has shown that, upon overexpression, TTC4 localizes to the cytoplasm. Interestingly, co-expression with a known protein interaction partner, hampin/MSL1, results in the nuclear translocation of the TTC4 protein. The subcellular localization of endogenous TTC4 depends, however, on the cell cycle: it is mostly nuclear in the G1 and S phases and is evenly distributed between the nucleus and cytoplasm in G2. The nuclear transport of TTC4 is apparently a complex process dependent on interactions with other proteins during the progression of the cell cycle. Thus, the dynamic character of the nuclear accumulation of TTC4 might be a potential link with regard to its function in tumor suppression. |