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Mendeliome v1.2698 LONP1 Lauren Rogers changed review comment from: ew reports of autosomal dominant mitochondrial disease due to missense variants at p.Arg301.

- PMID: 36353900; Hartley 2023: 1x heterozygous de novo individual with p.(Arg301Gln), with dystonia, hearing loss, seizures.
p.(Arg301Gln) has been reported as de novo in a heterozygous individual with dystonia, delayed speech and language development (VCGS/MCRI internal case)

- PMID: 31923470; Besse 2020: 1x heterozygous de novo individual with p.(Arg301Trp) with seizures, encephalopathy, pachygyria and microcephaly.
- p.(Arg301Trp) has also been reported in a heterozygous individual with recurrent neonatal seizures, suspected mitochondrial disorder, elevated lactate, microcephaly, EEG showing significantly increased seizure susceptibility which was de novo but parentage not tested (ClinVar, personal communication).
- p.(Arg301Trp) has also been identified in a heterozygous individual with neonatal intractable epileptic encephalopathy and lactic acidosis. MRI changes in keeping with mitochondrial disorder, a combined Complex I and complex IV defect identified in muscle (but not liver) by RCE (VCGS/MCRI internal case)

- p.(Arg301Gly) has been reported de novo in a heterozygous individual with epileptic encephalopathy, microcephaly and dyskinesia (ClinVar, personal communication)

LONP1 functions as both a chaperone and an ATP-dependent protease. Functional evidence in Besse shows p.(Arg301Trp) results in loss of chaperone activity but retains proteolytic activity. Expression of WT LONP1 in patient fibroblast cells did not rescue dysfunction (measured via levels of MRPL44, RPL11, PDHE1a, TFAM, PINK1, complex 1 and complex IV) - indicating NOT LoF effect. Overexpression of LONP1 in control fibroblast cells leads to dysfunction (decrease in NDUFB8, COXIV, MRPL44 and TFAM), however, MRPL11, PDHE1a and PINK1 proteins were unchanged compared to controls. Variant p.R721G associated with AR disease showed decreased homo-oligomerisation whilst p.R301W showed increased WT-Mut and WT-WT oligomers. GoF was suggested but no dose-dependent studies so DN cannot be excluded.; to: New reports of autosomal dominant mitochondrial disease due to missense variants at p.Arg301.

- PMID: 36353900; Hartley 2023: 1x heterozygous de novo individual with p.(Arg301Gln), with dystonia, hearing loss, seizures.
p.(Arg301Gln) has been reported as de novo in a heterozygous individual with dystonia, delayed speech and language development (VCGS/MCRI internal case)

- PMID: 31923470; Besse 2020: 1x heterozygous de novo individual with p.(Arg301Trp) with seizures, encephalopathy, pachygyria and microcephaly.
- p.(Arg301Trp) has also been reported in a heterozygous individual with recurrent neonatal seizures, suspected mitochondrial disorder, elevated lactate, microcephaly, EEG showing significantly increased seizure susceptibility which was de novo but parentage not tested (ClinVar, personal communication).
- p.(Arg301Trp) has also been identified in a heterozygous individual with neonatal intractable epileptic encephalopathy and lactic acidosis. MRI changes in keeping with mitochondrial disorder, a combined Complex I and complex IV defect identified in muscle (but not liver) by RCE (VCGS/MCRI internal case)

- p.(Arg301Gly) has been reported de novo in a heterozygous individual with epileptic encephalopathy, microcephaly and dyskinesia (ClinVar, personal communication)

LONP1 functions as both a chaperone and an ATP-dependent protease. Functional evidence in Besse shows p.(Arg301Trp) results in loss of chaperone activity but retains proteolytic activity. Expression of WT LONP1 in patient fibroblast cells did not rescue dysfunction (measured via levels of MRPL44, RPL11, PDHE1a, TFAM, PINK1, complex 1 and complex IV) - indicating NOT LoF effect. Overexpression of LONP1 in control fibroblast cells leads to dysfunction (decrease in NDUFB8, COXIV, MRPL44 and TFAM), however, MRPL11, PDHE1a and PINK1 proteins were unchanged compared to controls. Variant p.R721G associated with AR disease showed decreased homo-oligomerisation whilst p.R301W showed increased WT-Mut and WT-WT oligomers. GoF was suggested but no dose-dependent studies so DN cannot be excluded.
Mendeliome v1.2698 LONP1 Lauren Rogers commented on gene: LONP1: ew reports of autosomal dominant mitochondrial disease due to missense variants at p.Arg301.

- PMID: 36353900; Hartley 2023: 1x heterozygous de novo individual with p.(Arg301Gln), with dystonia, hearing loss, seizures.
p.(Arg301Gln) has been reported as de novo in a heterozygous individual with dystonia, delayed speech and language development (VCGS/MCRI internal case)

- PMID: 31923470; Besse 2020: 1x heterozygous de novo individual with p.(Arg301Trp) with seizures, encephalopathy, pachygyria and microcephaly.
- p.(Arg301Trp) has also been reported in a heterozygous individual with recurrent neonatal seizures, suspected mitochondrial disorder, elevated lactate, microcephaly, EEG showing significantly increased seizure susceptibility which was de novo but parentage not tested (ClinVar, personal communication).
- p.(Arg301Trp) has also been identified in a heterozygous individual with neonatal intractable epileptic encephalopathy and lactic acidosis. MRI changes in keeping with mitochondrial disorder, a combined Complex I and complex IV defect identified in muscle (but not liver) by RCE (VCGS/MCRI internal case)

- p.(Arg301Gly) has been reported de novo in a heterozygous individual with epileptic encephalopathy, microcephaly and dyskinesia (ClinVar, personal communication)

LONP1 functions as both a chaperone and an ATP-dependent protease. Functional evidence in Besse shows p.(Arg301Trp) results in loss of chaperone activity but retains proteolytic activity. Expression of WT LONP1 in patient fibroblast cells did not rescue dysfunction (measured via levels of MRPL44, RPL11, PDHE1a, TFAM, PINK1, complex 1 and complex IV) - indicating NOT LoF effect. Overexpression of LONP1 in control fibroblast cells leads to dysfunction (decrease in NDUFB8, COXIV, MRPL44 and TFAM), however, MRPL11, PDHE1a and PINK1 proteins were unchanged compared to controls. Variant p.R721G associated with AR disease showed decreased homo-oligomerisation whilst p.R301W showed increased WT-Mut and WT-WT oligomers. GoF was suggested but no dose-dependent studies so DN cannot be excluded.
Mendeliome v0.6578 RPL11 Zornitza Stark Marked gene: RPL11 as ready
Mendeliome v0.6578 RPL11 Zornitza Stark Gene: rpl11 has been classified as Green List (High Evidence).
Mendeliome v0.6578 RPL11 Zornitza Stark Phenotypes for gene: RPL11 were changed from to Diamond-Blackfan anemia 7, MIM# 612562; MONDO:0012938
Mendeliome v0.6577 RPL11 Zornitza Stark Publications for gene: RPL11 were set to
Mendeliome v0.6576 RPL11 Zornitza Stark Mode of inheritance for gene: RPL11 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.6575 RPL11 Zornitza Stark reviewed gene: RPL11: Rating: GREEN; Mode of pathogenicity: None; Publications: 19061985; Phenotypes: Diamond-Blackfan anemia 7, MIM# 612562, MONDO:0012938; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.0 RPL11 Zornitza Stark gene: RPL11 was added
gene: RPL11 was added to Mendeliome_VCGS. Sources: Expert Review Green,Victorian Clinical Genetics Services
Mode of inheritance for gene: RPL11 was set to Unknown