Preconception genome medicine: current state and future perspectives to improve infertility diagnosis and reproductive and health outcomes based on individual genomic data

Autor: Vallari Shukla, Eva Hoffmann, Csilla Krausz, Antoni Riera-Escamilla, Carlos Simón, Miya Kudo Høffding, Antonio Capalbo, Maurizio Poli
Rok vydání: 2020
Předmět:
Male
Infertility
medicine.medical_specialty
Population
Reproductive medicine
Genome-wide association study
Bioinformatics
polygenic medicine
genetic diagnosis
03 medical and health sciences
0302 clinical medicine
Pregnancy
reproductive genetics
Outcome Assessment
Health Care
medicine
Genetic predisposition
Humans
whole-exome sequencing
Prospective Studies
education
IVF/ICSI outcomes
Exome sequencing
030304 developmental biology
Reproductive health
Genetic testing
0303 health sciences
education.field_of_study
030219 obstetrics & reproductive medicine
medicine.diagnostic_test
oocyte and embryo genetic defects
business.industry
Obstetrics and Gynecology
Genomics
medicine.disease
3. Good health
Reproductive Medicine
whole-genome sequencing
genomic sequencing
preconception carrier screening
Female
infertility
business
Genome-Wide Association Study
Zdroj: HUMAN REPRODUCTION UPDATE
r-INCLIVA. Repositorio Institucional de Producción Científica de INCLIVA
instname
Human Reproduction Update
r-IIB SANT PAU. Repositorio Institucional de Producción Científica del Instituto de Investigación Biomédica Sant Pau
ISSN: 1460-2369
1355-4786
DOI: 10.1093/humupd/dmaa044
Popis: BACKGROUND Our genetic code is now readable, writable and hackable. The recent escalation of genome-wide sequencing (GS) applications in population diagnostics will not only enable the assessment of risks of transmitting well-defined monogenic disorders at preconceptional stages (i.e. carrier screening), but also facilitate identification of multifactorial genetic predispositions to sub-lethal pathologies, including those affecting reproductive fitness. Through GS, the acquisition and curation of reproductive-related findings will warrant the expansion of genetic assessment to new areas of genomic prediction of reproductive phenotypes, pharmacogenomics and molecular embryology, further boosting our knowledge and therapeutic tools for treating infertility and improving women’s health. OBJECTIVE AND RATIONALE In this article, we review current knowledge and potential development of preconception genome analysis aimed at detecting reproductive and individual health risks (recessive genetic disease and medically actionable secondary findings) as well as anticipating specific reproductive outcomes, particularly in the context of IVF. The extension of reproductive genetic risk assessment to the general population and IVF couples will lead to the identification of couples who carry recessive mutations, as well as sub-lethal conditions prior to conception. This approach will provide increased reproductive autonomy to couples, particularly in those cases where preimplantation genetic testing is an available option to avoid the transmission of undesirable conditions. In addition, GS on prospective infertility patients will enable genome-wide association studies specific for infertility phenotypes such as predisposition to premature ovarian failure, increased risk of aneuploidies, complete oocyte immaturity or blastocyst development failure, thus empowering the development of true reproductive precision medicine. SEARCH METHODS Searches of the literature on PubMed Central included combinations of the following MeSH terms: human, genetics, genomics, variants, male, female, fertility, next generation sequencing, genome exome sequencing, expanded carrier screening, secondary findings, pharmacogenomics, controlled ovarian stimulation, preconception, genetics, genome-wide association studies, GWAS. OUTCOMES Through PubMed Central queries, we identified a total of 1409 articles. The full list of articles was assessed for date of publication, limiting the search to studies published within the last 15 years (2004 onwards due to escalating research output of next-generation sequencing studies from that date). The remaining articles’ titles were assessed for pertinence to the topic, leaving a total of 644 articles. The use of preconception GS has the potential to identify inheritable genetic conditions concealed in the genome of around 4% of couples looking to conceive. Genomic information during reproductive age will also be useful to anticipate late-onset medically actionable conditions with strong genetic background in around 2–4% of all individuals. Genetic variants correlated with differential response to pharmaceutical treatment in IVF, and clear genotype–phenotype associations are found for aberrant sperm types, oocyte maturation, fertilization or pre- and post-implantation embryonic development. All currently known capabilities of GS at the preconception stage are reviewed along with persisting and forthcoming barriers for the implementation of precise reproductive medicine. WIDER IMPLICATIONS The expansion of sequencing analysis to additional monogenic and polygenic traits may enable the development of cost-effective preconception tests capable of identifying underlying genetic causes of infertility, which have been defined as ‘unexplained’ until now, thus leading to the development of a true personalized genomic medicine framework in reproductive health.
Databáze: OpenAIRE
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