Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency

Eresha Jasinge; Mihika Fernando; Neluwa Liyanage Ruwan Indika; Pyara Dilani Ratnayake; Nalin Gamaathige; Ratnanathan Ratnaranjith; Sabine Schroeder; Patricia Jones; Skrahina Volha; Subhashinie Jayasena; Anusha Varuni Gunaratna; Asitha Niroshana Bandara Ekanayake; Arndt Rolfs

doi:10.1515/almed-2023-0102

Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency

Eresha Jasinge, Mihika Fernando, Neluwa Liyanage Ruwan Indika, Pyara Dilani Ratnayake, Nalin Gamaathige, Ratnanathan Ratnaranjith, Sabine Schroeder, Patricia Jones, Skrahina Volha, Subhashinie Jayasena, Anusha Varuni Gunaratna, Asitha Niroshana Bandara Ekanayake, Arndt Rolfs

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

Abstract

Objectives: Pyruvate carboxylase, a mitochondrial enzyme, catalyses the conversion of glycolytic end-product pyruvate to tricarboxylic acid cycle intermediate, oxaloacetate. Rare pyruvate carboxylase deficiency manifests in three clinical and biochemical phenotypes: neonatal onset type A, infantile onset type B and a benign C type. The objective of this case series is to expand the knowledge of overlapping clinical and biochemical phenotypes of pyruvate carboxylase deficiency. Case presentation: We report three Sri Lankan neonates including two siblings, of two unrelated families with pyruvate carboxylase deficiency. All three developed respiratory distress within the first few hours of birth. Two siblings displayed typical biochemical findings reported in type B. The other proband with normal citrulline, lysine, moderate lactate, paraventricular cystic lesions, bony deformities, and a novel missense, homozygous variant c.2746G>C [p.(Asp916His)] in the PC gene, biochemically favoured type A. Conclusions: Our findings indicate the necessity of prompt laboratory investigations in a tachypneic neonate with coexisting metabolic acidosis, as early recognition is essential for patient management and family counselling. Further case studies are required to identify overlapping symptoms and biochemical findings in different types of pyruvate carboxylase deficiency phenotypes.

Original language	English (US)
Pages (from-to)	205-212
Number of pages	8
Journal	Advances in Laboratory Medicine
Volume	5
Issue number	2
DOIs	https://doi.org/10.1515/almed-2023-0102
State	Published - Jun 1 2024

Keywords

citrulline
genotype
neonate
phenotype
pyruvate carboxylase deficiency

ASJC Scopus subject areas

Medicine (miscellaneous)
Education
Medical Laboratory Technology

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Jasinge, E., Fernando, M., Ruwan Indika, N. L., Ratnayake, P. D., Gamaathige, N., Ratnaranjith, R., Schroeder, S., Jones, P., Volha, S., Jayasena, S., Gunaratna, A. V., Bandara Ekanayake, A. N., & Rolfs, A. (2024). Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency. Advances in Laboratory Medicine, 5(2), 205-212. https://doi.org/10.1515/almed-2023-0102

Jasinge, E, Fernando, M, Ruwan Indika, NL, Ratnayake, PD, Gamaathige, N, Ratnaranjith, R, Schroeder, S, Jones, P, Volha, S, Jayasena, S, Gunaratna, AV, Bandara Ekanayake, AN & Rolfs, A 2024, 'Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency', Advances in Laboratory Medicine, vol. 5, no. 2, pp. 205-212. https://doi.org/10.1515/almed-2023-0102

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abstract = "Objectives: Pyruvate carboxylase, a mitochondrial enzyme, catalyses the conversion of glycolytic end-product pyruvate to tricarboxylic acid cycle intermediate, oxaloacetate. Rare pyruvate carboxylase deficiency manifests in three clinical and biochemical phenotypes: neonatal onset type A, infantile onset type B and a benign C type. The objective of this case series is to expand the knowledge of overlapping clinical and biochemical phenotypes of pyruvate carboxylase deficiency. Case presentation: We report three Sri Lankan neonates including two siblings, of two unrelated families with pyruvate carboxylase deficiency. All three developed respiratory distress within the first few hours of birth. Two siblings displayed typical biochemical findings reported in type B. The other proband with normal citrulline, lysine, moderate lactate, paraventricular cystic lesions, bony deformities, and a novel missense, homozygous variant c.2746G>C [p.(Asp916His)] in the PC gene, biochemically favoured type A. Conclusions: Our findings indicate the necessity of prompt laboratory investigations in a tachypneic neonate with coexisting metabolic acidosis, as early recognition is essential for patient management and family counselling. Further case studies are required to identify overlapping symptoms and biochemical findings in different types of pyruvate carboxylase deficiency phenotypes.",

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author = "Eresha Jasinge and Mihika Fernando and {Ruwan Indika}, {Neluwa Liyanage} and Ratnayake, {Pyara Dilani} and Nalin Gamaathige and Ratnanathan Ratnaranjith and Sabine Schroeder and Patricia Jones and Skrahina Volha and Subhashinie Jayasena and Gunaratna, {Anusha Varuni} and {Bandara Ekanayake}, {Asitha Niroshana} and Arndt Rolfs",

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doi = "10.1515/almed-2023-0102",

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T1 - Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency

AU - Jasinge, Eresha

AU - Fernando, Mihika

AU - Ruwan Indika, Neluwa Liyanage

AU - Ratnayake, Pyara Dilani

AU - Gamaathige, Nalin

AU - Ratnaranjith, Ratnanathan

AU - Schroeder, Sabine

AU - Jones, Patricia

AU - Volha, Skrahina

AU - Jayasena, Subhashinie

AU - Gunaratna, Anusha Varuni

AU - Bandara Ekanayake, Asitha Niroshana

AU - Rolfs, Arndt

PY - 2024/6/1

Y1 - 2024/6/1

N2 - Objectives: Pyruvate carboxylase, a mitochondrial enzyme, catalyses the conversion of glycolytic end-product pyruvate to tricarboxylic acid cycle intermediate, oxaloacetate. Rare pyruvate carboxylase deficiency manifests in three clinical and biochemical phenotypes: neonatal onset type A, infantile onset type B and a benign C type. The objective of this case series is to expand the knowledge of overlapping clinical and biochemical phenotypes of pyruvate carboxylase deficiency. Case presentation: We report three Sri Lankan neonates including two siblings, of two unrelated families with pyruvate carboxylase deficiency. All three developed respiratory distress within the first few hours of birth. Two siblings displayed typical biochemical findings reported in type B. The other proband with normal citrulline, lysine, moderate lactate, paraventricular cystic lesions, bony deformities, and a novel missense, homozygous variant c.2746G>C [p.(Asp916His)] in the PC gene, biochemically favoured type A. Conclusions: Our findings indicate the necessity of prompt laboratory investigations in a tachypneic neonate with coexisting metabolic acidosis, as early recognition is essential for patient management and family counselling. Further case studies are required to identify overlapping symptoms and biochemical findings in different types of pyruvate carboxylase deficiency phenotypes.

AB - Objectives: Pyruvate carboxylase, a mitochondrial enzyme, catalyses the conversion of glycolytic end-product pyruvate to tricarboxylic acid cycle intermediate, oxaloacetate. Rare pyruvate carboxylase deficiency manifests in three clinical and biochemical phenotypes: neonatal onset type A, infantile onset type B and a benign C type. The objective of this case series is to expand the knowledge of overlapping clinical and biochemical phenotypes of pyruvate carboxylase deficiency. Case presentation: We report three Sri Lankan neonates including two siblings, of two unrelated families with pyruvate carboxylase deficiency. All three developed respiratory distress within the first few hours of birth. Two siblings displayed typical biochemical findings reported in type B. The other proband with normal citrulline, lysine, moderate lactate, paraventricular cystic lesions, bony deformities, and a novel missense, homozygous variant c.2746G>C [p.(Asp916His)] in the PC gene, biochemically favoured type A. Conclusions: Our findings indicate the necessity of prompt laboratory investigations in a tachypneic neonate with coexisting metabolic acidosis, as early recognition is essential for patient management and family counselling. Further case studies are required to identify overlapping symptoms and biochemical findings in different types of pyruvate carboxylase deficiency phenotypes.

KW - citrulline

KW - genotype

KW - neonate

KW - phenotype

KW - pyruvate carboxylase deficiency

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Clinical, biochemical, and molecular profiles of three Sri Lankan neonates with pyruvate carboxylase deficiency

Abstract

Keywords

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