Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations

Irit Hochberg; Leigh A. M. Demain; Julie Richer; Kyle Thompson; Jill E. Urquhart; Alessandro Rea; Waheeda Pagarkar; Agustí Rodríguez-Palmero; Agatha Schlüter; Edgard Verdura; Aurora Pujol; Pilar Quijada-Fraile; Albert Amberger; Andrea J. Deutschmann; Sandra Demetz; Meredith Gillespie; Inna A. Belyantseva; Hugh J. McMillan; Melanie Barzik; Glenda M. Beaman; Reeya Motha; Kah Ying Ng; James O'Sullivan; Simon G. Williams; Sanjeev S. Bhaskar; Isabella R. Lawrence; Emma M. Jenkinson; Jessica L. Zambonin; Zeev Blumenfeld; Sergey Yalonetsky; Stephanie Oerum; Walter Rossmanith; Wyatt W. Yue; Johannes Zschocke; Kevin J. Munro; Brendan J. Battersby; Thomas B. Friedman; Robert W. Taylor; Raymond T. O'Keefe; William G. Newman

doi:10.1016/j.ajhg.2021.10.002

Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations

Irit Hochberg, Leigh A. M. Demain, Julie Richer, Kyle Thompson, Jill E. Urquhart, Alessandro Rea, Waheeda Pagarkar, Agustí Rodríguez-Palmero, Agatha Schlüter, Edgard Verdura, Aurora Pujol, Pilar Quijada-Fraile, Albert Amberger, Andrea J. Deutschmann, Sandra Demetz, Meredith Gillespie, Inna A. Belyantseva, Hugh J. McMillan, Melanie Barzik, Glenda M. BeamanReeya Motha, Kah Ying Ng, James O'Sullivan, Simon G. Williams, Sanjeev S. Bhaskar, Isabella R. Lawrence, Emma M. Jenkinson, Jessica L. Zambonin, Zeev Blumenfeld, Sergey Yalonetsky, Stephanie Oerum, Walter Rossmanith, Wyatt W. Yue, Johannes Zschocke, Kevin J. Munro, Brendan J. Battersby, Thomas B. Friedman, Robert W. Taylor, Raymond T. O'Keefe, William G. Newman

Departament de Pediatria, d’Obstetrícia i Ginecologia i de Medicina Preventiva i Salut Pública

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

35 Cites (Scopus)

Resum

Human mitochondrial RNase P (mt-RNase P) is responsible for 5' end processing of mitochondrial precursor tRNAs, a vital step in mitochondrial RNA maturation, and is comprised of three protein subunits: TRMT10C, SDR5C1 (HSD10), and PRORP. Pathogenic variants in TRMT10C and SDR5C1 are associated with distinct recessive or x-linked infantile onset disorders, resulting from defects in mitochondrial RNA processing. We report four unrelated families with multisystem disease associated with bi-allelic variants in PRORP, the metallonuclease subunit of mt-RNase P. Affected individuals presented with variable phenotypes comprising sensorineural hearing loss, primary ovarian insufficiency, developmental delay, and brain white matter changes. Fibroblasts from affected individuals in two families demonstrated decreased steady state levels of PRORP, an accumulation of unprocessed mitochondrial transcripts, and decreased steady state levels of mitochondrial-encoded proteins, which were rescued by introduction of the wild-type PRORP cDNA. In mt-tRNA processing assays performed with recombinant mt-RNase P proteins, the disease-associated variants resulted in diminished mitochondrial tRNA processing. Identification of disease-causing variants in PRORP indicates that pathogenic variants in all three subunits of mt-RNase P can cause mitochondrial dysfunction, each with distinct pleiotropic clinical presentations.

Idioma original	Anglès
Pàgines (de-a)	2195-2204
Nombre de pàgines	10
Revista	American Journal of Human Genetics
Volum	108
DOIs	https://doi.org/10.1016/j.ajhg.2021.10.002
Estat de la publicació	Publicada - 2021

SDG de les Nacions Unides

Aquest resultat contribueix als següents objectius de desenvolupament sostenible.

Accés al document

10.1016/j.ajhg.2021.10.002

https://ddd.uab.cat/record/250495

Com citar-ho

Hochberg, I., Demain, L. A. M., Richer, J., Thompson, K., Urquhart, J. E., Rea, A., Pagarkar, W., Rodríguez-Palmero, A., Schlüter, A., Verdura, E., Pujol, A., Quijada-Fraile, P., Amberger, A., Deutschmann, A. J., Demetz, S., Gillespie, M., Belyantseva, I. A., McMillan, H. J., Barzik, M., ... Newman, W. G. (2021). Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations. American Journal of Human Genetics, 108, 2195-2204. https://doi.org/10.1016/j.ajhg.2021.10.002

@article{bd5c98d0a8a54c4f884bc90ba82d8105,

title = "Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations",

abstract = "Human mitochondrial RNase P (mt-RNase P) is responsible for 5' end processing of mitochondrial precursor tRNAs, a vital step in mitochondrial RNA maturation, and is comprised of three protein subunits: TRMT10C, SDR5C1 (HSD10), and PRORP. Pathogenic variants in TRMT10C and SDR5C1 are associated with distinct recessive or x-linked infantile onset disorders, resulting from defects in mitochondrial RNA processing. We report four unrelated families with multisystem disease associated with bi-allelic variants in PRORP, the metallonuclease subunit of mt-RNase P. Affected individuals presented with variable phenotypes comprising sensorineural hearing loss, primary ovarian insufficiency, developmental delay, and brain white matter changes. Fibroblasts from affected individuals in two families demonstrated decreased steady state levels of PRORP, an accumulation of unprocessed mitochondrial transcripts, and decreased steady state levels of mitochondrial-encoded proteins, which were rescued by introduction of the wild-type PRORP cDNA. In mt-tRNA processing assays performed with recombinant mt-RNase P proteins, the disease-associated variants resulted in diminished mitochondrial tRNA processing. Identification of disease-causing variants in PRORP indicates that pathogenic variants in all three subunits of mt-RNase P can cause mitochondrial dysfunction, each with distinct pleiotropic clinical presentations.",

keywords = "Mitochondria, Perrault syndrome, PRORP, Sensorineural hearing loss, Primary ovarian insufficiency, Leukodystrophy, RNase P, Rare disease, MRPP3",

author = "Irit Hochberg and Demain, {Leigh A. M.} and Julie Richer and Kyle Thompson and Urquhart, {Jill E.} and Alessandro Rea and Waheeda Pagarkar and Agust{\'i} Rodr{\'i}guez-Palmero and Agatha Schl{\"u}ter and Edgard Verdura and Aurora Pujol and Pilar Quijada-Fraile and Albert Amberger and Deutschmann, {Andrea J.} and Sandra Demetz and Meredith Gillespie and Belyantseva, {Inna A.} and McMillan, {Hugh J.} and Melanie Barzik and Beaman, {Glenda M.} and Reeya Motha and Ng, {Kah Ying} and James O'Sullivan and Williams, {Simon G.} and Bhaskar, {Sanjeev S.} and Lawrence, {Isabella R.} and Jenkinson, {Emma M.} and Zambonin, {Jessica L.} and Zeev Blumenfeld and Sergey Yalonetsky and Stephanie Oerum and Walter Rossmanith and Yue, {Wyatt W.} and Johannes Zschocke and Munro, {Kevin J.} and Battersby, {Brendan J.} and Friedman, {Thomas B.} and Taylor, {Robert W.} and O'Keefe, {Raymond T.} and Newman, {William G.}",

year = "2021",

doi = "10.1016/j.ajhg.2021.10.002",

language = "English",

volume = "108",

pages = "2195--2204",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

}

Hochberg, I, Demain, LAM, Richer, J, Thompson, K, Urquhart, JE, Rea, A, Pagarkar, W, Rodríguez-Palmero, A, Schlüter, A, Verdura, E, Pujol, A, Quijada-Fraile, P, Amberger, A, Deutschmann, AJ, Demetz, S, Gillespie, M, Belyantseva, IA, McMillan, HJ, Barzik, M, Beaman, GM, Motha, R, Ng, KY, O'Sullivan, J, Williams, SG, Bhaskar, SS, Lawrence, IR, Jenkinson, EM, Zambonin, JL, Blumenfeld, Z, Yalonetsky, S, Oerum, S, Rossmanith, W, Yue, WW, Zschocke, J, Munro, KJ, Battersby, BJ, Friedman, TB, Taylor, RW, O'Keefe, RT & Newman, WG 2021, 'Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations', American Journal of Human Genetics, vol. 108, pàg. 2195-2204. https://doi.org/10.1016/j.ajhg.2021.10.002

Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations. / Hochberg, Irit; Demain, Leigh A. M.; Richer, Julie et al.
In: American Journal of Human Genetics, Vol. 108, 2021, pàg. 2195-2204.

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

TY - JOUR

T1 - Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations

AU - Hochberg, Irit

AU - Demain, Leigh A. M.

AU - Richer, Julie

AU - Thompson, Kyle

AU - Urquhart, Jill E.

AU - Rea, Alessandro

AU - Pagarkar, Waheeda

AU - Rodríguez-Palmero, Agustí

AU - Schlüter, Agatha

AU - Verdura, Edgard

AU - Pujol, Aurora

AU - Quijada-Fraile, Pilar

AU - Amberger, Albert

AU - Deutschmann, Andrea J.

AU - Demetz, Sandra

AU - Gillespie, Meredith

AU - Belyantseva, Inna A.

AU - McMillan, Hugh J.

AU - Barzik, Melanie

AU - Beaman, Glenda M.

AU - Motha, Reeya

AU - Ng, Kah Ying

AU - O'Sullivan, James

AU - Williams, Simon G.

AU - Bhaskar, Sanjeev S.

AU - Lawrence, Isabella R.

AU - Jenkinson, Emma M.

AU - Zambonin, Jessica L.

AU - Blumenfeld, Zeev

AU - Yalonetsky, Sergey

AU - Oerum, Stephanie

AU - Rossmanith, Walter

AU - Yue, Wyatt W.

AU - Zschocke, Johannes

AU - Munro, Kevin J.

AU - Battersby, Brendan J.

AU - Friedman, Thomas B.

AU - Taylor, Robert W.

AU - O'Keefe, Raymond T.

AU - Newman, William G.

PY - 2021

Y1 - 2021

N2 - Human mitochondrial RNase P (mt-RNase P) is responsible for 5' end processing of mitochondrial precursor tRNAs, a vital step in mitochondrial RNA maturation, and is comprised of three protein subunits: TRMT10C, SDR5C1 (HSD10), and PRORP. Pathogenic variants in TRMT10C and SDR5C1 are associated with distinct recessive or x-linked infantile onset disorders, resulting from defects in mitochondrial RNA processing. We report four unrelated families with multisystem disease associated with bi-allelic variants in PRORP, the metallonuclease subunit of mt-RNase P. Affected individuals presented with variable phenotypes comprising sensorineural hearing loss, primary ovarian insufficiency, developmental delay, and brain white matter changes. Fibroblasts from affected individuals in two families demonstrated decreased steady state levels of PRORP, an accumulation of unprocessed mitochondrial transcripts, and decreased steady state levels of mitochondrial-encoded proteins, which were rescued by introduction of the wild-type PRORP cDNA. In mt-tRNA processing assays performed with recombinant mt-RNase P proteins, the disease-associated variants resulted in diminished mitochondrial tRNA processing. Identification of disease-causing variants in PRORP indicates that pathogenic variants in all three subunits of mt-RNase P can cause mitochondrial dysfunction, each with distinct pleiotropic clinical presentations.

AB - Human mitochondrial RNase P (mt-RNase P) is responsible for 5' end processing of mitochondrial precursor tRNAs, a vital step in mitochondrial RNA maturation, and is comprised of three protein subunits: TRMT10C, SDR5C1 (HSD10), and PRORP. Pathogenic variants in TRMT10C and SDR5C1 are associated with distinct recessive or x-linked infantile onset disorders, resulting from defects in mitochondrial RNA processing. We report four unrelated families with multisystem disease associated with bi-allelic variants in PRORP, the metallonuclease subunit of mt-RNase P. Affected individuals presented with variable phenotypes comprising sensorineural hearing loss, primary ovarian insufficiency, developmental delay, and brain white matter changes. Fibroblasts from affected individuals in two families demonstrated decreased steady state levels of PRORP, an accumulation of unprocessed mitochondrial transcripts, and decreased steady state levels of mitochondrial-encoded proteins, which were rescued by introduction of the wild-type PRORP cDNA. In mt-tRNA processing assays performed with recombinant mt-RNase P proteins, the disease-associated variants resulted in diminished mitochondrial tRNA processing. Identification of disease-causing variants in PRORP indicates that pathogenic variants in all three subunits of mt-RNase P can cause mitochondrial dysfunction, each with distinct pleiotropic clinical presentations.

KW - Mitochondria

KW - Perrault syndrome

KW - PRORP

KW - Sensorineural hearing loss

KW - Primary ovarian insufficiency

KW - Leukodystrophy

KW - RNase P

KW - Rare disease

KW - MRPP3

U2 - 10.1016/j.ajhg.2021.10.002

DO - 10.1016/j.ajhg.2021.10.002

M3 - Article

C2 - 34715011

SN - 0002-9297

VL - 108

SP - 2195

EP - 2204

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

ER -

Bi-allelic variants in the mitochondrial RNase P subunit PRORP cause mitochondrial tRNA processing defects and pleiotropic multisystem presentations

Resum

SDG de les Nacions Unides

Accés al document

Fingerprint

Com citar-ho