Department of Pathology, Catholic University Bugando Medical Centre, Mwanza P.O. Box 1464, Tanzania.
Pathology Unit, Department of Laboratories, Bambino Gesù Children's Hospital, IRCCS, 00165 Rome, Italy.
Int J Mol Sci. 2022 Sep 2;23(17):9996. doi: 10.3390/ijms23179996.
Seventeen out of 764 liver biopsies from transplanted (Tx) livers in children showed glycogen-ground glass (GGG) hepatocytic inclusions. The inclusions were not present in pre-Tx or in the explanted or donor's liver. Under the electron microscope (EM), the stored material within the cytosol appeared as non-membrane-bound aggregates of electron-lucent globoid or fibrillar granules, previously described as abnormally structured glycogen and identified as Polyglucosan bodies (PB). The appearance of GGG in our children was analogous to that of PB-GGG occurring in a number of congenital diseases due to gene mutations such as Lafora's d., Andersen's d., Adult Polyglucosan Body Disease and glycogenin deficiency. The same type of GGG was previously reported in the liver of patients undergoing transplants, immunosuppressive or antiblastic treatment. To explore the potential mechanism of GGG formation, we examined whether the drugs after whose treatment this phenomenon was observed could have a role. By carrying out molecular docking, we found that such drugs somehow present a high binding affinity for the active region of glycogenin, implicating that they can inactivate the protein, thus preventing its interaction with glycogen synthase (GS), as well as the maturation of the nascent glycogen towards gamma, beta or alfa glycogen granules. We could also demonstrate that PG inclusions consist of a complex of PAS positive material (glycogen) and glycogen-associated proteins, i.e., glicogenin-1 and -2 and ubiquitin. These features appear to be analogous to congenital GGG, suggesting that, in both cases, they result from the simultaneous dysregulation of glycogen synthesis and degradation. Drug-induced GGG appear to be toxic to the cell, despite their reversibility.
在 764 例儿童移植肝活检中,有 17 例显示出糖原玻璃样(GGG)肝细胞包涵体。这些包涵体在移植前、移植肝或供体肝中均不存在。在电子显微镜下,细胞溶质内储存的物质表现为无膜结合的电子透明小球或纤维状颗粒的聚集物,以前被描述为异常结构的糖原,并被鉴定为多聚糖体(PB)。我们的儿童中出现的 GGG 与由于基因突变引起的许多先天性疾病中发生的 PB-GGG 类似,如 Lafora 病、Andersen 病、成人多聚糖体病和糖原素缺乏症。以前在接受移植、免疫抑制或抗肿瘤治疗的患者的肝脏中也报道过同样类型的 GGG。为了探讨 GGG 形成的潜在机制,我们研究了观察到这种现象后使用的药物是否可能起作用。通过进行分子对接,我们发现这些药物在某种程度上对糖原素的活性区域具有高结合亲和力,这意味着它们可以使该蛋白失活,从而阻止其与糖原合酶(GS)相互作用,以及阻止新生糖原向γ、β或α糖原颗粒的成熟。我们还可以证明 PG 包涵体由 PAS 阳性物质(糖原)和糖原相关蛋白的复合物组成,即糖原素-1 和 -2 和泛素。这些特征似乎与先天性 GGG 类似,表明在这两种情况下,它们都是由于糖原合成和降解的同时失调所致。尽管药物诱导的 GGG 是可逆的,但它们似乎对细胞有毒性。
