TRPV6 is a calcium selective TRP channel and is expressed in many species. TRPV6 transcripts are abundantly expressed in few tissues but strangely channel properties are only accessible to electrophysiological recordings after overexpression whereas in native tissue functional channel currents seem not to be detectable. Another exceptional property of human and mouse TRPV6 proteins is that the initiation of translation starts from a non-canonical ACG triplet which is translated as methionine. This triplet is located 120 bp upstream of the first in-frame AUG codon of the human/mouse TRPV6 mRNA. In contrast, the TRPV6 gene of bats is initiated from an AUG triplet at the corresponding position of the human ACG. On the basis of these structural nucleotide differences between human and bats we studied the role of the absolute N-Terminus for the regulation of translation by developing chimera and mutants of human/bat TRPV6 channels. The human sequence which is located downstream of the initiation codon slows down ribosomal scanning in 3' direction. We suggest that the mechanism involves most likely the deceleration of ribosome scanning by stem-loop formation and the use of the common initiator tRNA, tRNAiMet, which is placed onto the inappropriate ACG codon resulting in low protein synthesis. The reduced translation efficiency is important to protect TRPV6 expressing cells from toxic calcium overload. The regulation of the TRPV6 translation in bats may be an adaptation to low calcium amounts present in the natural nutrition. In addition, we show that also the GFP protein can be controlled using the translational mechanism of human TRPV6.
Keywords: Calcium channel; Non-canonical initiation; TRPV6; Transient receptor potential.
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