ABSTRACT:
BACKGROUND: Cancer is a significant
and growing problem worldwide. While this increase may, in part, be attributed
to increasing longevity, improved case notifications and risk-enhancing
lifestyle (such as smoking, diet and obesity), hygiene-related factors
resulting in immuno-regulatory failure may also play a major role and call for
a revision of vaccination strategies to protect against a range of cancers in
addition to infections.
DISCUSSION:
Human endogenous retroviruses
(HERVs) are a significant component of a wider family of retroelements that
constitutes part of the human genome. They were originated by the integration
of exogenous retroviruses into the human genome millions of years ago. HERVs
are estimated to comprise about 8% of human DNA and are ubiquitous in somatic
and germinal tissues.Physiologic and pathologic processes are influenced by
some biologically active HERV families. HERV antigens are only expressed at low
levels by the host, but in circumstances of inappropriate control their genes
may initiate or maintain pathological processes. Although the precise mechanism
leading to abnormal HERVs gene expression has yet to be clearly elucidated,
environmental factors seem to be involved by influencing the human immune
system.HERV-K expression has been detected in different types of tumors.Among
the various human endogenous retroviral families, the K series was the latest
acquired by the human species. Probably because of its relatively recent
origin, the HERV-K is the most complete and biologically active family.The
abnormal expression of HERV-K seemingly triggers pathological processes leading
to melanoma onset, but also contributes to the morphological and functional
cellular modifications implicated in melanoma maintenance and progression.The
HERV-K-MEL antigen is encoded by a pseudo-gene incorporated in the HERV-K
env-gene. HERV-K-MEL is significantly expressed in the majority of dysplastic
and normal naevi, as well as other tumors like sarcoma, lymphoma, bladder and
breast cancer. An amino acid sequence similar to HERV-K-MEL, recognized to
cause a significant protective effect against melanoma, is shared by the
antigenic determinants expressed by some vaccines such as BCG, vaccinia virus
and the yellow fever virus.HERV-K are also reactivated in the majority of human
breast cancers. Monoclonal and single-chain antibodies against the HERV-K Env
protein recently proved capable of blocking the proliferation of human breast
cancer cells in vitro, inhibiting tumor growth in mice bearing xenograft
tumors.
SUMMARY:
A recent epidemiological study
provided provisional evidence of how melanoma risk could possibly be reduced if
the yellow fever virus vaccine (YFV) were received at least 10 years before,
possibly preventing tumor initiation rather than culling of melanoma cells
already compromised. Further research is recommended to confirm the temporal
pattern of this protection and eliminate/attenuate the potential role of relevant
confounders as socio-economic status and other vaccinations.It appears also
appropriate to examine the potential protective effect of YFV against other
malignancies expressing high levels of HERV-K antigens, namely breast cancer,
sarcoma, lymphoma and bladder cancer.Tumor immune-therapy, as described for the
monoclonal antibodies against breast cancer, is indeed considered more complex
and less advantageous than immune-prevention. Cellular immunity possibly
triggered by vaccines as for YFV might also be involved in anti-cancer
response, in addition to humoral immunity.
Source: Human endogenous retroviruses
and cancer prevention: evidence and prospects. Cegolon L (l.cegolon@gmail.com), Salata C,
Weiderpass E, Vineis P, Palù G, Mastrangelo G. BMC Cancer. 2013 Jan 3;13(1):4.
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