Since their discovery in the 1950s, transfer RNAs (tRNAs) have been best
known for their role in helping the cell make proteins from messenger RNA
templates. However, recent studies have led to a previously-unsuspected concept
that tRNAs are not always the end product; namely, they further serve as a
source of small RNAs. Now researchers have discovered a new species of
tRNA-derived small RNAs that are produced only in hormonally-driven breast and
prostate cancers, and which contribute to cell proliferation. The results will
be published online the week of June 29th in the Proceedings of the National
Academy of Sciences (PNAS).
"In early RNA sequencing studies, researchers observed an abundance of tRNA
fragments in cellular transcriptome but those fragments had often been
disregarded as non-functional degradation products," says Yohei Kirino, Ph.D.,
Assistant Professor in the Department of Biochemistry and Molecular Biology and
a researcher at the Computational Medicine Center at Thomas Jefferson
University. "This research is one of several recent studies that bring to light
a new role for tRNAs to produce small functional RNAs, in this case, functional
tRNA halves."
Although other tRNA halves have been described before -- specifically those
that are produced during a cellular stress response -- this discovery represents
a new and distinct species of tRNA halves that the authors coined SHOT-RNAs, for
sex hormone dependent tRNA-derived RNAs.
Dr. Kirino and colleagues discovered these tRNA halves while looking at
germline-specific small RNAs in the cells of a silkworm (Bombyx mori). In the
cells, the researchers accidentally detected the tRNA halves whose expression
was linked to cell proliferation. Since proliferation is a hallmark of cancer
cells, the researchers analyzed the involvement of tRNA halves in
tumorigenesis.
Using a new TaqMan PCR-based technique, the researchers screened a number
of cancer cell lines from various tissues, and discovered that tRNA halves were
specifically expressed in large quantities in sex hormone-dependent cancers,
i.e., estrogen receptor (ER)-positive breast cancer and androgen receptor
(AR)-positive prostate cancer that are driven by the hormones estrogen and
testosterone. After confirming the dependency of the tRNA halves' expression on
the hormones and their receptors, they coined the new tRNA halves,
SHOT-RNAs.
SHOT-RNAs contain a terminal modification which prevents their detection by
standard RNA-seq method. "The modification makes SHOT-RNAs invisible in RNA-seq
data and this could be the reason why SHOT-RNAs had not been discovered in spite
of their abundance and clear expression specificity in hormone-dependent
cancers," says Dr. Kirino.
Dr. Kirino and colleagues created a novel method called cP-RNA-seq to
comprehensively sequence SHOT-RNAs and found that only eight tRNA species
produce SHOT-RNAs. They were also able to track the molecule's function in the
cells, and tease apart the other cellular players it interacted with. They
discovered, for example, that SHOT-RNAs are created by an enzyme called
Angiogenin whose activity is promoted by sex hormone signaling pathways. They
also showed that SHOT-RNAs are involved in spurring cell proliferation.
"The SHOT-RNAs are an exciting development in the tRNA field," said Isidore
Rigoutsos, Ph.D., Director of the Computational Medicine Center at Thomas
Jefferson University. "They are also another example of what appear to be
regulators whose presence in a given tissue is modulated by a person's gender.
Discovering such regulators is one of the major foci of the Computational
Medicine Center."
In a final experiment, Dr. Kirino and colleagues also examined clinical
samples from breast cancer patients and found elevated levels of SHOT-RNAs in
patients with ER-positive luminal-type cancers, but not those that were negative
for ER expression. The high expression specificity of SHOT-RNAs implies their
potential use as a novel biomarker, and the next steps, says Dr. Kirino, are to
explore relationships between SHOT-RNA expression and prognostic factors.
In spite of endocrine therapy to suppress hormone receptor activity or
hormone exposure, many patients of hormone-dependent cancers encounter de novo
or acquired resistance and require more aggressive treatments. Dr. Kirino says
that "further studies to understand how SHOT-RNAs promote cell proliferation may
lead to the use of SHOT-RNAs as potential target candidates for future
therapeutic applications in breast and prostate cancers."
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