Hoyeraal-Hreidarsson Syndrome due to PARN Mutations: Fourteen Years of Follow-Up

Burris, Ashley; Ballew, Bari J.; Kentosh, Joshua B.; Turner, Clesson; Norton, Scott A.; Giri, Neelam; Alter, Blanche P.; Nellan, Anandani; Gamper, Christopher; Hartman, Kip R.; Savage, Sharon A.

doi:10.1016/j.pediatrneurol.2015.12.005

Cited by 36 publications

(36 citation statements)

References 30 publications

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“…In P1, the combined analyses of whole genome homozygosity mapping (WGHM) and whole exome sequencing (WES) focused on homozygous genetic variants absent from dbSNPs, EVS, 1,000 genome and from our in‐house databases (8,319 individuals) and located in chromosomal regions co‐segregating with the disease identified homozygous mutations in the Titin‐encoding gene (NM_001267550.1:c.9413C>A; Chr2(GRCh37):g.179632544G>T; p.Ala3138Glu) and in the PARN‐encoding gene (NM_002582.2:c.204G>T; Chr16(GRCh37):g.14721167C>A; p.Gln68His). We considered PARN gene as the strongest candidate because biallelic PARN mutations had been recently reported in HH (Dhanraj et al , ; Moon et al , ; Tummala et al , ; Burris et al , ). Sanger sequencing confirmed the homozygous c.204G>T PARN mutation in P1, with both parents being heterozygous for the mutation (Fig B).…”

Section: Resultsmentioning

confidence: 99%

“…We first assessed whether PARN deficiency in patients was accompanied by a telomere length defect as previously reported (Dhanraj et al , ; Moon et al , ; Tummala et al , ; Burris et al , ). Telomere restriction fragment (TRF) measurement revealed abnormally short telomeres in peripheral blood mononuclear cells from P1 and P2 as compared to their parents (Fig A).…”

Section: Resultsmentioning

confidence: 99%

“…Disease resulting from biallelic PARN mutations has been reported in only 9 patients so far (Dhanraj et al , ; Moon et al , ; Tummala et al , ; Burris et al , ). We here describe two unrelated patients carrying novel biallelic PARN mutations and exhibiting a phenotype corresponding to Høyeraal–Hreidarsson syndrome.…”

Section: Discussionmentioning

confidence: 99%

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Impaired telomere integrity and rRNA biogenesis in PARN‐deficient patients and knock‐out models

et al. 2019

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PARN, poly(A)‐specific ribonuclease, regulates the turnover of mRNAs and the maturation and stabilization of the h TR RNA component of telomerase. Biallelic PARN mutations were associated with Høyeraal–Hreidarsson (HH) syndrome, a rare telomere biology disorder that, because of its severity, is likely not exclusively due to h TR down‐regulation. Whether PARN deficiency was affecting the expression of telomere‐related genes was still unclear. Using cells from two unrelated HH individuals carrying novel PARN mutations and a human PARN knock‐out (KO) cell line with inducible PARN complementation, we found that PARN deficiency affects both telomere length and stability and down‐regulates the expression of TRF1 , TRF2 , TPP1 , RAP1 , and POT1 shelterin transcripts. Down‐regulation of dyskerin‐encoding DKC1 mRNA was also observed and found to result from p53 activation in PARN‐deficient cells. We further showed that PARN deficiency compromises ribosomal RNA biogenesis in patients' fibroblasts and cells from heterozygous Parn KO mice. Homozygous Parn KO however resulted in early embryonic lethality that was not overcome by p53 KO. Our results refine our knowledge on the pleiotropic cellular consequences of PARN deficiency.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Impaired telomere integrity and rRNA biogenesis in PARN‐deficient patients and knock‐out models

et al. 2019

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“…Dyskeratosis congenita (DC) constitutes another IBMFS associated with mutations in any of the 15 genes related with the maintenance of telomere length . Three inherited forms of the disease have been described: X‐linked, autosomal dominant and autosomal recessive.…”

Section: Gene Therapy In Inherited Bone Marrow Failure Syndromesmentioning

confidence: 99%

“…Dyskeratosis congenita (DC) constitutes another IBMFS associated with mutations in any of the 15 genes related with the maintenance of telomere length. [137][138][139][140] Three inherited forms of the disease have been described: X-linked, autosomal dominant and autosomal recessive. The main manifestations of the disease are ungual dystrophy, leukoplakia, cutaneous hyperpigmentation, as well as BMF, which appears in 80% of DC patients before the age of 30.…”

Section: Previous Experimental Studies Have Shown That Both Rvs and Lvsmentioning

confidence: 99%

Advances in the gene therapy of monogenic blood cell diseases

et al. 2019

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Hematopoietic gene therapy has markedly progressed during the last 15 years both in terms of safety and efficacy. While a number of serious adverse events (SAE) were initially generated as a consequence of genotoxic insertions of gamma-retroviral vectors in the cell genome, no SAEs and excellent outcomes have been reported in patients infused with autologous hematopoietic stem cells (HSCs) transduced with self-inactivated lentiviral and gammaretroviral vectors. Advances in the field of HSC gene therapy have extended the number of monogenic diseases that can be treated with these approaches. Nowadays, evidence of clinical efficacy has been shown not only in primary immunodeficiencies, but also in other hematopoietic diseases, including beta-thalassemia and sickle cell anemia. In addition to the rapid progression of non-targeted gene therapies in the clinic, new approaches based on gene editing have been developed thanks to the discovery of designed nucleases and improved non-integrative vectors, which have markedly increased the efficacy and specificity of gene targeting to levels compatible with its clinical application. Based on advances achieved in the field of gene therapy, it can be envisaged that these therapies will soon be part of the therapeutic approaches used to treat life-threatening diseases of the hematopoietic system.

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Rothmund–Thomson Syndrome, Bloom Syndrome, Dyskeratosis Congenita, Fanconi Anaemia and Poikiloderma with Neutropenia

Wang

Levy

2019

Harper's Textbook of Pediatric Dermatology

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Hoyeraal-Hreidarsson Syndrome due to PARN Mutations: Fourteen Years of Follow-Up

Cited by 36 publications

References 30 publications

Impaired telomere integrity and rRNA biogenesis in PARN‐deficient patients and knock‐out models

Impaired telomere integrity and rRNA biogenesis in PARN‐deficient patients and knock‐out models

Advances in the gene therapy of monogenic blood cell diseases

Rothmund–Thomson Syndrome, Bloom Syndrome, Dyskeratosis Congenita, Fanconi Anaemia and Poikiloderma with Neutropenia

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