Giant crystals inside mitochondria of equine chondrocytes

Nürnberger, Sylvia; Rentenberger, Christian; Thiel, Karsten; Schädl, Barbara; Grunwald, Ingo; Ponomarev, Igor; Marlovits, S.; Meyer, C; Barnewitz, Dirk

doi:10.1007/s00418-016-1516-6

Cited by 6 publications

(2 citation statements)

References 60 publications

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“…The CIBs found only in M. cavernosa and P. strigosa were inconsistently associated with LN lesions in the BBW, and their function is unknown. Diverse CIBs (e.g., organic crystalline metabolites) are often found in normal organisms (Edwardson and Christie, 1978;Nürnberger et al, 2017) and while the CIBs reported here are similar in ultrastructural appearance to the kalisomes in the gastrodermis of coral larvae (e.g., Pocillopora damicornis) (Clode and Marshall, 2002), they could be crystalline inclusions resembling aragonite calcium carbonate (Hayes and Goreau, 1977), and still have to be analyzed chemically. When crystallized in the laboratory at pH 8.0, the coral chromoprotein pocilloporin forms a mauve tetrahedron (Beddoe et al, 2003) reminiscent of the CIBs noted here, but it is not known whether this process would occur in corals in situ.…”

Section: Discussionmentioning

confidence: 62%

Stony Coral Tissue Loss Disease in Florida Is Associated With Disruption of Host–Zooxanthellae Physiology

et al. 2020

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Samples from eight species of corals (Colpophyllia natans, Dendrogyra cylindrus, Diploria labyrinthiformis, Meandrina meandrites, Montastraea cavernosa, Orbicella faveolata, Pseudodiploria strigosa, and Siderastrea siderea) that exhibited gross clinical signs of acute, subacute, or chronic tissue loss attributed to stony coral tissue loss disease (SCTLD) were collected from the Florida Reef Tract during 2016–2018 and examined histopathologically. The hallmark microscopic lesion seen in all eight species was focal to multifocal lytic necrosis (LN) originating in the gastrodermis of the basal body wall (BBW) and extending to the calicodermis, with more advanced lesions involving the surface body wall. This was accompanied by other degenerative changes in host cells such as mucocyte hypertrophy, degradation and fragmentation of gastrodermal architecture, and disintegration of the mesoglea. Zooxanthellae manifested various changes including necrosis (cytoplasmic hypereosinophilia, pyknosis); peripheral nuclear chromatin condensation; cytoplasmic vacuolation accompanied by deformation, swelling, or atrophy; swollen accumulation bodies; prominent pyrenoids; and degraded chloroplasts. Polyhedral intracytoplasmic eosinophilic periodic acid–Schiff-positive crystalline inclusion bodies (∼1–10 μm in length) were seen only in M. cavernosa and P. strigosa BBW gastrodermis in or adjacent to active lesions and some unaffected areas (without surface lesions) of diseased colonies. Coccoidlike or coccobacilloidlike structures (Gram-neutral) reminiscent of microorganisms were occasionally associated with LN lesions or seen in apparently healthy tissue of diseased colonies along with various parasites and other bacteria all considered likely secondary colonizers. Of the 82 samples showing gross lesions of SCTLD, 71 (87%) were confirmed histologically to have LN. Collectively, pathology indicates that SCTLD is the result of a disruption of host–symbiont physiology with lesions originating in the BBW leading to detachment and sloughing of tissues from the skeleton. Future investigations could focus on identifying the cause and pathogenesis of this process.

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Section: Discussionmentioning

confidence: 62%

Stony Coral Tissue Loss Disease in Florida Is Associated With Disruption of Host–Zooxanthellae Physiology

et al. 2020

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“…The study of Caldwell et al 26 was in agreement with these observations, who also demonstrated the presence of ICIs in NAFLD. In a recent study by Nürnberger, et al 61 the authors revealed ICIs of equine chondrocytes were proteinaceous in nature, detecting the proteinrelevant elements nitrogen, sulphur and phosphor by means of energy-filtered TEM. It has been postulated that such crystals in hibernating animals and oocytes may represent a form of protein storage, however in human HPCs, the presence and frequency of ICIs is considered an indication of mitochondrial degeneration 34 .…”

Section: Discussionmentioning

confidence: 99%

Three-dimensional ultrastructure of giant mitochondria in human non-alcoholic fatty liver disease

Shami

Cheng

Verhaegh

et al. 2021

Sci Rep

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Giant mitochondria are peculiarly shaped, extremely large mitochondria in hepatic parenchymal cells, the internal structure of which is characterised by atypically arranged cristae, enlarged matrix granules and crystalline inclusions. The presence of giant mitochondria in human tissue biopsies is often linked with cellular adversity, caused by toxins such as alcohol, xenobiotics, anti-cancer drugs, free-radicals, nutritional deficiencies or as a consequence of high fat Western diets. To date, non-alcoholic fatty liver disease is the most prevalent liver disease in lipid dysmetabolism, in which mitochondrial dysfunction plays a crucial role. It is not well understood whether the morphologic characteristics of giant mitochondria are an adaption or caused by such dysfunction. In the present study, we employ a complementary multimodal imaging approach involving array tomography and transmission electron tomography in order to comparatively analyse the structure and morphometric parameters of thousands of normal- and giant mitochondria in four patients diagnosed with non-alcoholic fatty liver disease. In so doing, we reveal functional alterations associated with mitochondrial gigantism and propose a mechanism for their formation based on our ultrastructural findings.

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In focus in HCB

Taatjes

Roth

2019

Histochem Cell Biol

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Giant crystals inside mitochondria of equine chondrocytes

Cited by 6 publications

References 60 publications

Stony Coral Tissue Loss Disease in Florida Is Associated With Disruption of Host–Zooxanthellae Physiology

Stony Coral Tissue Loss Disease in Florida Is Associated With Disruption of Host–Zooxanthellae Physiology

Three-dimensional ultrastructure of giant mitochondria in human non-alcoholic fatty liver disease

In focus in HCB

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