Diverse monogenic subforms of human spermatogenic failure

Liina Nagirnaja; Alexandra M. Lopes; Wu Lin Charng; Brian Miller; Rytis Stakaitis; Ieva Golubickaite; Alexandra Stendahl; Tianpengcheng Luan; Corinna Friedrich; Eisa Mahyari; Eloise Fadial; Laura Kasak; Katinka Vigh-Conrad; Manon S. Oud; Miguel J. Xavier; Samuel R. Cheers; Emma R. James; Jingtao Guo; Timothy G. Jenkins; Antoni Riera-Escamilla; Alberto Barros; Filipa Carvalho; Susana Fernandes; João Gonçalves; Christina A. Gurnett; Niels Jørgensen; Davor Jezek; Emily S. Jungheim; Sabine Kliesch; Robert I. McLachlan; Kenan R. Omurtag; Adrian Pilatz; Jay I. Sandlow; James Smith; Michael L. Eisenberg; James M. Hotaling; Keith A. Jarvi; Margus Punab; Ewa Rajpert-De Meyts; Douglas T. Carrell; Csilla Krausz; Maris Laan; Moira K. O’Bryan; Peter N. Schlegel; Frank Tüttelmann; Joris A. Veltman; Kristian Almstrup; Kenneth I. Aston; Donald F. Conrad

doi:10.1038/s41467-022-35661-z

Diverse monogenic subforms of human spermatogenic failure

Liina Nagirnaja, Alexandra M. Lopes, Wu Lin Charng, Brian Miller, Rytis Stakaitis, Ieva Golubickaite, Alexandra Stendahl, Tianpengcheng Luan, Corinna Friedrich, Eisa Mahyari, Eloise Fadial, Laura Kasak, Katinka Vigh-Conrad, Manon S. Oud, Miguel J. Xavier, Samuel R. Cheers, Emma R. James, Jingtao Guo, Timothy G. Jenkins, Antoni Riera-EscamillaAlberto Barros, Filipa Carvalho, Susana Fernandes, João Gonçalves, Christina A. Gurnett, Niels Jørgensen, Davor Jezek, Emily S. Jungheim, Sabine Kliesch, Robert I. McLachlan, Kenan R. Omurtag, Adrian Pilatz, Jay I. Sandlow, James Smith, Michael L. Eisenberg, James M. Hotaling, Keith A. Jarvi, Margus Punab, Ewa Rajpert-De Meyts, Douglas T. Carrell, Csilla Krausz, Maris Laan, Moira K. O’Bryan, Peter N. Schlegel, Frank Tüttelmann, Joris A. Veltman, Kristian Almstrup, Kenneth I. Aston, Donald F. Conrad

Oregon National Primate Research Center

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Non-obstructive azoospermia (NOA) is the most severe form of male infertility and typically incurable. Defining the genetic basis of NOA has proven challenging, and the most advanced classification of NOA subforms is not based on genetics, but simple description of testis histology. In this study, we exome-sequenced over 1000 clinically diagnosed NOA cases and identified a plausible recessive Mendelian cause in 20%. We find further support for 21 genes in a 2-stage burden test with 2072 cases and 11,587 fertile controls. The disrupted genes are primarily on the autosomes, enriched for undescribed human “knockouts”, and, for the most part, have yet to be linked to a Mendelian trait. Integration with single-cell RNA sequencing data shows that azoospermia genes can be grouped into molecular subforms with synchronized expression patterns, and analogs of these subforms exist in mice. This analysis framework identifies groups of genes with known roles in spermatogenesis but also reveals unrecognized subforms, such as a set of genes expressed across mitotic divisions of differentiating spermatogonia. Our findings highlight NOA as an understudied Mendelian disorder and provide a conceptual structure for organizing the complex genetics of male infertility, which may provide a rational basis for disease classification.

Original language	English (US)
Article number	7953
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-35661-z
State	Published - Dec 2022

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

Access to Document

10.1038/s41467-022-35661-z

Cite this

Nagirnaja, L., Lopes, A. M., Charng, W. L., Miller, B., Stakaitis, R., Golubickaite, I., Stendahl, A., Luan, T., Friedrich, C., Mahyari, E., Fadial, E., Kasak, L., Vigh-Conrad, K., Oud, M. S., Xavier, M. J., Cheers, S. R., James, E. R., Guo, J., Jenkins, T. G., ... Conrad, D. F. (2022). Diverse monogenic subforms of human spermatogenic failure. Nature communications, 13(1), Article 7953. https://doi.org/10.1038/s41467-022-35661-z

Nagirnaja, L, Lopes, AM, Charng, WL, Miller, B, Stakaitis, R, Golubickaite, I, Stendahl, A, Luan, T, Friedrich, C, Mahyari, E, Fadial, E, Kasak, L, Vigh-Conrad, K, Oud, MS, Xavier, MJ, Cheers, SR, James, ER, Guo, J, Jenkins, TG, Riera-Escamilla, A, Barros, A, Carvalho, F, Fernandes, S, Gonçalves, J, Gurnett, CA, Jørgensen, N, Jezek, D, Jungheim, ES, Kliesch, S, McLachlan, RI, Omurtag, KR, Pilatz, A, Sandlow, JI, Smith, J, Eisenberg, ML, Hotaling, JM, Jarvi, KA, Punab, M, Rajpert-De Meyts, E, Carrell, DT, Krausz, C, Laan, M, O’Bryan, MK, Schlegel, PN, Tüttelmann, F, Veltman, JA, Almstrup, K, Aston, KI & Conrad, DF 2022, 'Diverse monogenic subforms of human spermatogenic failure', Nature communications, vol. 13, no. 1, 7953. https://doi.org/10.1038/s41467-022-35661-z

@article{a6e26d5ba18347dd8f3afcb0bb65c26c,

title = "Diverse monogenic subforms of human spermatogenic failure",

abstract = "Non-obstructive azoospermia (NOA) is the most severe form of male infertility and typically incurable. Defining the genetic basis of NOA has proven challenging, and the most advanced classification of NOA subforms is not based on genetics, but simple description of testis histology. In this study, we exome-sequenced over 1000 clinically diagnosed NOA cases and identified a plausible recessive Mendelian cause in 20%. We find further support for 21 genes in a 2-stage burden test with 2072 cases and 11,587 fertile controls. The disrupted genes are primarily on the autosomes, enriched for undescribed human “knockouts”, and, for the most part, have yet to be linked to a Mendelian trait. Integration with single-cell RNA sequencing data shows that azoospermia genes can be grouped into molecular subforms with synchronized expression patterns, and analogs of these subforms exist in mice. This analysis framework identifies groups of genes with known roles in spermatogenesis but also reveals unrecognized subforms, such as a set of genes expressed across mitotic divisions of differentiating spermatogonia. Our findings highlight NOA as an understudied Mendelian disorder and provide a conceptual structure for organizing the complex genetics of male infertility, which may provide a rational basis for disease classification.",

author = "Liina Nagirnaja and Lopes, {Alexandra M.} and Charng, {Wu Lin} and Brian Miller and Rytis Stakaitis and Ieva Golubickaite and Alexandra Stendahl and Tianpengcheng Luan and Corinna Friedrich and Eisa Mahyari and Eloise Fadial and Laura Kasak and Katinka Vigh-Conrad and Oud, {Manon S.} and Xavier, {Miguel J.} and Cheers, {Samuel R.} and James, {Emma R.} and Jingtao Guo and Jenkins, {Timothy G.} and Antoni Riera-Escamilla and Alberto Barros and Filipa Carvalho and Susana Fernandes and Jo{\~a}o Gon{\c c}alves and Gurnett, {Christina A.} and Niels J{\o}rgensen and Davor Jezek and Jungheim, {Emily S.} and Sabine Kliesch and McLachlan, {Robert I.} and Omurtag, {Kenan R.} and Adrian Pilatz and Sandlow, {Jay I.} and James Smith and Eisenberg, {Michael L.} and Hotaling, {James M.} and Jarvi, {Keith A.} and Margus Punab and {Rajpert-De Meyts}, Ewa and Carrell, {Douglas T.} and Csilla Krausz and Maris Laan and O{\textquoteright}Bryan, {Moira K.} and Schlegel, {Peter N.} and Frank T{\"u}ttelmann and Veltman, {Joris A.} and Kristian Almstrup and Aston, {Kenneth I.} and Conrad, {Donald F.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-35661-z",

language = "English (US)",

volume = "13",

journal = "Nature communications",

issn = "2041-1723",

publisher = "Nature Publishing Group",

number = "1",

}

TY - JOUR

T1 - Diverse monogenic subforms of human spermatogenic failure

AU - Nagirnaja, Liina

AU - Lopes, Alexandra M.

AU - Charng, Wu Lin

AU - Miller, Brian

AU - Stakaitis, Rytis

AU - Golubickaite, Ieva

AU - Stendahl, Alexandra

AU - Luan, Tianpengcheng

AU - Friedrich, Corinna

AU - Mahyari, Eisa

AU - Fadial, Eloise

AU - Kasak, Laura

AU - Vigh-Conrad, Katinka

AU - Oud, Manon S.

AU - Xavier, Miguel J.

AU - Cheers, Samuel R.

AU - James, Emma R.

AU - Guo, Jingtao

AU - Jenkins, Timothy G.

AU - Riera-Escamilla, Antoni

AU - Barros, Alberto

AU - Carvalho, Filipa

AU - Fernandes, Susana

AU - Gonçalves, João

AU - Gurnett, Christina A.

AU - Jørgensen, Niels

AU - Jezek, Davor

AU - Jungheim, Emily S.

AU - Kliesch, Sabine

AU - McLachlan, Robert I.

AU - Omurtag, Kenan R.

AU - Pilatz, Adrian

AU - Sandlow, Jay I.

AU - Smith, James

AU - Eisenberg, Michael L.

AU - Hotaling, James M.

AU - Jarvi, Keith A.

AU - Punab, Margus

AU - Rajpert-De Meyts, Ewa

AU - Carrell, Douglas T.

AU - Krausz, Csilla

AU - Laan, Maris

AU - O’Bryan, Moira K.

AU - Schlegel, Peter N.

AU - Tüttelmann, Frank

AU - Veltman, Joris A.

AU - Almstrup, Kristian

AU - Aston, Kenneth I.

AU - Conrad, Donald F.

PY - 2022/12

Y1 - 2022/12

N2 - Non-obstructive azoospermia (NOA) is the most severe form of male infertility and typically incurable. Defining the genetic basis of NOA has proven challenging, and the most advanced classification of NOA subforms is not based on genetics, but simple description of testis histology. In this study, we exome-sequenced over 1000 clinically diagnosed NOA cases and identified a plausible recessive Mendelian cause in 20%. We find further support for 21 genes in a 2-stage burden test with 2072 cases and 11,587 fertile controls. The disrupted genes are primarily on the autosomes, enriched for undescribed human “knockouts”, and, for the most part, have yet to be linked to a Mendelian trait. Integration with single-cell RNA sequencing data shows that azoospermia genes can be grouped into molecular subforms with synchronized expression patterns, and analogs of these subforms exist in mice. This analysis framework identifies groups of genes with known roles in spermatogenesis but also reveals unrecognized subforms, such as a set of genes expressed across mitotic divisions of differentiating spermatogonia. Our findings highlight NOA as an understudied Mendelian disorder and provide a conceptual structure for organizing the complex genetics of male infertility, which may provide a rational basis for disease classification.

AB - Non-obstructive azoospermia (NOA) is the most severe form of male infertility and typically incurable. Defining the genetic basis of NOA has proven challenging, and the most advanced classification of NOA subforms is not based on genetics, but simple description of testis histology. In this study, we exome-sequenced over 1000 clinically diagnosed NOA cases and identified a plausible recessive Mendelian cause in 20%. We find further support for 21 genes in a 2-stage burden test with 2072 cases and 11,587 fertile controls. The disrupted genes are primarily on the autosomes, enriched for undescribed human “knockouts”, and, for the most part, have yet to be linked to a Mendelian trait. Integration with single-cell RNA sequencing data shows that azoospermia genes can be grouped into molecular subforms with synchronized expression patterns, and analogs of these subforms exist in mice. This analysis framework identifies groups of genes with known roles in spermatogenesis but also reveals unrecognized subforms, such as a set of genes expressed across mitotic divisions of differentiating spermatogonia. Our findings highlight NOA as an understudied Mendelian disorder and provide a conceptual structure for organizing the complex genetics of male infertility, which may provide a rational basis for disease classification.

UR - http://www.scopus.com/inward/record.url?scp=85144638273&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85144638273&partnerID=8YFLogxK

U2 - 10.1038/s41467-022-35661-z

DO - 10.1038/s41467-022-35661-z

M3 - Article

C2 - 36572685

AN - SCOPUS:85144638273

SN - 2041-1723

VL - 13

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 7953

ER -

Diverse monogenic subforms of human spermatogenic failure

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this