Alan Bolnick scite author profile

Single-gene mutations account for more than 6000 diseases, 10% of all pediatric hospital admissions, and 20% of infant deaths. Down syndrome and other aneuploidies occur in more than 0.2% of births worldwide and are on the rise because of advanced reproductive age. Birth defects of genetic origin can be diagnosed in utero after invasive extraction of fetal tissues. Noninvasive testing with circulating cell-free fetal DNA is limited by a low fetal DNA fraction. Both modalities are unavailable until the end of the first trimester. We have isolated intact trophoblast cells from Papanicolaou smears collected noninvasively at 5 to 19 weeks of gestation for next-generation sequencing of fetal DNA. Consecutive matched maternal, placental, and fetal samples (n = 20) were profiled by multiplex targeted DNA sequencing of 59 short tandem repeat and 94 single-nucleotide variant sites across all 24 chromosomes. The data revealed fetal DNA fractions of 85 to 99.9%, with 100% correct fetal haplotyping. This noninvasive platform has the potential to provide comprehensive fetal genomic profiling as early as 5 weeks of gestation.

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Down syndrome births in the United States from 1989 to 2001

Egan

Benn

Zelop

et al. 2004

American Journal of Obstetrics and Gynecology

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Commonly used fertility drugs, a diet supplement, and stress force AMPK-dependent block of stemness and development in cultured mammalian embryos

Bolnick

Abdulhasan

Kilburn

et al. 2016

J Assist Reprod Genet

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Purpose The purpose of the present study is to test whether metformin, aspirin, or diet supplement (DS) BioResponse-3, 3′-Diindolylmethane (BR-DIM) can induce AMP-activated protein kinase (AMPK)-dependent potency loss in cultured embryos and whether metformin (Met) + Aspirin (Asa) or BR-DIM causes an AMPK-dependent decrease in embryonic development. Methods The methods used were as follows: culture post-thaw mouse zygotes to the two-cell embryo stage and test effects after 1-h AMPK agonists' (e.g., Met, Asa, BR-DIM, control hyperosmotic stress) exposure on AMPK-dependent loss of Oct4 and/or Rex1 nuclear potency factors, confirm AMPK dependence by reversing potency loss in two-cell-stage embryos with AMPK inhibitor compound C (CC), test whether Met + Asa (i.e., co-added) or DS BR-DIM decreases development of two-cell to blastocyst stage in an AMPK-dependent (CCsensitive) manner, and evaluate the level of Rex1 and Oct4 nuclear fluorescence in two-cell-stage embryos and rate of two-cell-stage embryo development to blastocysts. Result(s) Met, Asa, BR-DIM, or hyperosmotic sorbitol stress induces rapid~50-85 % Rex1 and/or Oct4 protein loss in twocell embryos. This loss is~60-90 % reversible by co-culture with AMPK inhibitor CC. Embryo development from twocell to blastocyst stage is decreased in culture with either Met + Asa or BR-DIM, and this is either >90 or~60 % reversible with CC, respectively. Conclusion These experimental designs here showed that Met-, Asa-, BR-DIM-, or sorbitol stress-induced rapid potency loss in two-cell embryos is AMPK dependent as suggested by inhibition of Rex1 and/or Oct4 protein loss with an AMPK inhibitor. The DS BR-DIM or fertility drugs (e.g., Met + Asa)Capsule Drugs metformin and aspirin and diet supplement BR-DIM cause AMPK-dependent potency loss and decrease embryonic development from two-cell to blastocyst stage. Reprod Genet (2016) 33:1027-1039 DOI 10.1007 that are used to enhance maternal metabolism to support fertility can also chronically slow embryo growth and block development in an AMPK-dependent manner.

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Alan Bolnick

Assisted reproductive technology alters deoxyribonucleic acid methylation profiles in bloodspots of newborn infants

Bacterial endocarditis complicating pregnancy: case report and systematic review of the literature

Fetal genome profiling at 5 weeks of gestation after noninvasive isolation of trophoblast cells from the endocervical canal

Down syndrome births in the United States from 1989 to 2001

Commonly used fertility drugs, a diet supplement, and stress force AMPK-dependent block of stemness and development in cultured mammalian embryos

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