Fatal neonatal liver failure and mitochondrial cytopathy (oxidative phosphorylation deficiency): A light and electron microscopic study of the liver

Bioulac‐Sage, Paulette; Parrot-Roulaud, F.; Mazat, Jean Pierre; Lamireau, T.; Coquet, M; Sandler, Boris; Demarquez, J. L.; Cormier, V.; Münnich, Arnold; Carré, Mireille; Balabaud, Charles

doi:10.1002/hep.1840180414

Cited by 75 publications

(46 citation statements)

References 21 publications

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“…Such ultrastructural abnormalities are not specific for MDS because they have been previously reported in other patients with respiratory chain disorders. 17 On the other hand, the detection of these ultrastructural features in patients who display early progressive liver failure, neurological abnormalities, lactic acidosis, hypoglycemia, and elevated plasma ␣-fetoprotein levels, should direct the clinician to the diagnosis of the hepatic form of MDS, to be confirmed by evaluation of mtDNA content. The prominent increase in the number of mitochondria, designated as "oncocytic change" or "oncocytic transformation" has been previously associated with a number of other conditions, normal or pathological.…”

Section: Discussionmentioning

confidence: 99%

“…The normal biochemical findings in muscle tissue of patients with hepatic MDS and the ethical difficulty to obtain a sufficiently large liver sample for complete enzymatic and molecular work-up, may lead to a significant under-diagnosis of this condition. It can be assumed that some of the previously reported infants 17,38 who died of undiagnosed liver failure and OXPHOS dysfunction may have suffered from hepatic MDS. The present description of the ultrastructural findings in a large cohort of patients can increase the diagnosis rate of hepatic MDS.…”

Section: Discussionmentioning

confidence: 99%

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The hepatic mitochondrial DNA depletion syndrome: Ultrastructural changes in liver biopsies

et al. 2001

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Mitochondrial respiratory chain disorders are an established cause of liver failure in early childhood. In some patients, the levels of mitochondrial DNA are markedly reduced, a condition referred to as mtDNA depletion syndrome (MDS). We report here on the ultrastructural changes in the livers of 10 infants with the hepatic form of this syndrome. All patients displayed progressive liver failure, neurological abnormalities, hypoglycemia, and lactic acidosis that warranted investigation of respiratory chain disorder in liver tissue, specifically expressing the disease. Decreased activity of respiratory chain complexes containing mtDNA-encoded subunits (complexes I, III, IV) was shown in 5 patients. Mitochondrial DNA depletion was confirmed by Southern blot analysis in the livers of 6 patients. We found hepatocytes filled with mitochondria having aspects of "oncocytic transformation," associated with numerous changes in shape, size, cristae, and matrix. The changes were virtually identical in all specimens. In many hepatocytes, microvesicular steatosis was the salient feature. Additional findings included cholestasis and focal cytoplasmic biliary necrosis (CBN), as well as cytosiderosis in hepatocytes and sinusoidal cells. In some hepatocytes the damage appeared extreme, but fibrosis was identified only in the few patients who died beyond 6 months of age. Although individual ultrastructural findings are not specific, when taken together, they show a diagnostic pattern highly suggestive of a respiratory chain disorder. In the appropriate clinical context, these findings can direct the clinician towards the diagnosis of hepatic MDS. (HEPATOLOGY 2001;34:776-784.)The mitochondrial respiratory chain is a highly organized system involved in the ATP-generating, oxidative phosphorylation (OXPHOS) process. It is composed of 5 enzymatic complexes, which include more than 100 proteins. Thirteen of the polypeptides are encoded by mitochondrial DNA (mtDNA) whereas the remaining subunits by the nuclear genome.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

The hepatic mitochondrial DNA depletion syndrome: Ultrastructural changes in liver biopsies

et al. 2001

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“…Some patients dying of liver failure have shown no histological abnormalities except steatosis (29). In general, however, progression of the liver disease is associated with other changes.…”

Section: Histologymentioning

confidence: 99%

Mitochondrial respiratory chain disorders and the liver

Morris

1999

Liver

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Mitochondrial respiratory chain disorders are an established cause of liver failure in early childhood but they are probably under-diagnosed, partly due to under-recognition and partly due to the difficulty of investigation. It is particularly important to look for mitochondrial disorders if the liver disease presents with hypoglycaemia and lactic acidaemia or if it is accompanied by neurological, muscle or renal tubular abnormalities. Respiratory chain defects have been demonstrated in a number of patients who die of liver failure following severe epilepsy; this includes at least some cases of Alpers syndrome or 'progressive neuronal degeneration of childhood'. In mitochondrial liver disease, histology usually shows steatosis, often accompanied by fibrosis, cholestasis and loss of hepatocytes. Unless the clinical picture suggests a particular syndrome, such as Pearson syndrome, biochemical assays and histochemistry should be the initial investigations. Ideally, investigations should be carried out on liver as well as more standard tissues, such as muscle, since defects can be tissue-specific. Nuclear defects and nitDNA point mutations are probably responsible for many cases of mitochondrial liver disease but, as yet, the only identified molecular abnormalities are mtDNA rearrangements and mtDNA depletion. Treatment of mitochondrial liver disease is unsatisfactory. If the disease is confined to the liver, transplantation may be appropriate but in several patients transplantation has been followed by the appearance of disease in other organs, particularly the I brain.Mitochondria are subcellular organelles whose primary role is the oxidation of fuels to produce energy. This process is accomplished by a series of enzymes known as the mitochondrial respiratory chain. Mitochondria are the site of many other metabolic pathways but the term 'mitochondrial disease' is generally used to refer to those conditions associated with respiratory chain defects. Since the oxidation of fuels is important for almost all cells, defects of the mitochondrial respiratory chain can cause disease in any organ of the body. Liver disease is a relatively common problem in respiratory chain disorders that present during infancy. These genetic disorders are the sub,ject of the current review. Secondary defects of tlhe respiratory chain caused, for example, by drugs or toxins, can also lead to liver disease but these disorders are only considered briefly in the section on pathogenesis, where key references are giiven. Mitochondrial biochemistryMany oxidative reactions occur within mitochondria, including the D-oxidation pathway for fatty acids, the oxidative decarboxylation of pyruvate by the pyruvate dehydrogenase complex and the oxidation of acetyl-CoA by the tricarboxylic acid cycle. These reactions all generate reduced cofactors, such as the reduced forms of flavin adenine dinucleotide (FADH2) and nicotinamide adenine dinucleotide (NADH). The mitochondrial respiratory chain couples the reoxidation of these cofactors to the for...

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“…14 The major features are a higher rate in male children, with serum alanine aminotransferase (ALT) levels that are usually higher than serum aspartate aminotransferase (AST) levels, and with hypertriglyceridemia and vague abdominal pain (which is usually the main reason for seeking clinical evaluation). [14][15][16] According to Mandel et al 17 and Bioulac-Sage et al, 18 childhood microvesicular steatosis may be associated with mitochondrial abnormalities relating to increased numbers of organelles. 18,19 There is also a correlation with respiratory chain defects and consequently impaired oxidative phosphorylation.…”

Section: Introductionmentioning

confidence: 99%

“…[14][15][16] According to Mandel et al 17 and Bioulac-Sage et al, 18 childhood microvesicular steatosis may be associated with mitochondrial abnormalities relating to increased numbers of organelles. 18,19 There is also a correlation with respiratory chain defects and consequently impaired oxidative phosphorylation. 20,21 When this type of abnormality occurs, transfer of electrons to oxygen molecules generates reactive oxygen species, thus producing superoxide anions and hydrogen peroxide.…”

Section: Introductionmentioning

confidence: 99%

Steatosis of indeterminate cause in a pediatric group: is it a primary mitochondrial hepatopathy?

Silva¹,

Hessel

Coelho

et al. 2011

Sao Paulo Med. J.

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CONTEXT AND OBJECTIVE: In children, hepatic steatosis may be related to inborn errors of metabolism (IEMs) or to non-alcoholic fatty liver disease (NAFLD). The aim of this study was to assess and characterize steatosis of indeterminate cause through morphological and morphometric analysis of liver tissue. METHODS: Eighteen consecutive liver biopsies obtained from 16 patients of ages ranging from 3 months to 12 years and nine months that were inserted in a database in the study period were analyzed using optical microscopy and transmission electron microscopy. Through electron microscopy, the mitochondrial density and mean mitochondrial surface area were determined in hepatocytes. Ten patients ranging in age from 1 to 14 years were used as a control group. RESULTS: "Pure" steatosis was detected, unaccompanied by fibrosis or any other histological alteration. Microvesicular steatosis predominated, with a significant increase in mean mitochondrial surface area. CONCLUSION: Microvesicular steatosis may be related to primary mitochondrial hepatopathy, especially due to reduction of b-oxidation or partial stagnation of oxidative phosphorylation. For these reasons, this form of steatosis (which should not be called "pure") is likely to represent an initial stage in the broad spectrum of NAFLD. We have drawn attention to cases of steatosis in the pediatric group, in which the microvesicular form predominates, since this may be associated with mitochondrial disorders.reSUMO CONTEXTO E OBJETIVO: Em crianças, a esteatose hepática pode se relacionar a erros inatos do metabolismo (EIMs) ou à doença hepática gordurosa não-alcoólica (DHGNA). O objetivo deste estudo foi avaliar e caracterizar esteatose de causa indeterminada por meio de análises morfológica e morfométrica em tecido hepático. TIPO DE ESTUDO E LOCAL: Estudo transversal nos Departamentos de Patologia da Faculdade de Ciências Médicas da Universidade Estadual de Campinas (FCM-Unicamp) e Faculdade de Medicina de Botucatu da Universidade Estadual Paulista (FMB-Unesp).MÉTODOS: Foram utilizadas 18 biópsias hepáticas consecutivas obtidas de 16 pacientes com idade variando de 3 meses a 12 anos e 9 meses, inseridas num banco de dados no período do estudo, que foram analisadas por microscopia óptica e eletrônica. Na microscopia eletrônica, foi realizada determinação da densidade mitocondrial e da área superficial média das mitocôndrias nos hepatócitos. Dez pacientes com idade variando de 1 a 14 anos foram usados como grupo controle. RESULTADOS: Foi detectada esteatose "pura", não acompanhada por fibrose ou outra alteração histoló-gica. Foi verificado que, na predominância de esteatose microvesicular, houve aumento significativo da área mitocondrial média. CONCLUSÃO: A esteatose microvesicular pode estar relacionada à hepatopatia mitocondrial primária, principalmente devido à redução na b-oxidação ou parcial estagnação da fosforilação oxidativa. Por essas razões, esta forma de esteatose (que não pode ser chamada de "pura") possivelmente represente uma fase inicial no...

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Fatal neonatal liver failure and mitochondrial cytopathy (oxidative phosphorylation deficiency): A light and electron microscopic study of the liver

Cited by 75 publications

References 21 publications

The hepatic mitochondrial DNA depletion syndrome: Ultrastructural changes in liver biopsies

The hepatic mitochondrial DNA depletion syndrome: Ultrastructural changes in liver biopsies

Mitochondrial respiratory chain disorders and the liver

Steatosis of indeterminate cause in a pediatric group: is it a primary mitochondrial hepatopathy?

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