The historical background of hereditary cystatin C amyloid angiopathy: Genealogical, pathological, and clinical manifestations.

Hereditary cystatin C amyloid angiopathy (HCCAA) is an Icelandic disease that belongs to a disease class called cerebral amyloid angiopathy, a group of heterogenous diseases presenting with aggregation of amyloid complexes and deposition predominantly in the central nervous system. HCCAA is dominantly inherited, caused by L68Q mutation in the cystatin C gene, leading to aggregation of the cystatin C protein. HCCAA is a very progressive and severe disease, with widespread cerebral and parenchymal cystatin C and collagen IV deposition within the central nervous system (CNS) but also in other organs in the body, for example, in the skin. Most L68Q carriers have clinical symptoms characterized by recurrent hemorrhages and dementia, between the age of 20-30 years. If the carriers survive the first hemorrhage, the frequency and severity of the hemorrhages tend to increase, resulting in death at average of 30 years with mean number of major hemorrhages ranging from 3.2 to 3.9 over a 5-year average life span. The pathogenesis of the disease in carriers is very similar in the CNS and in the skin based on autopsy studies, thus skin biopsies can be used to monitor the progression of the disease by quantifying the cystatin C immunoreactivity. The cystatin C deposition always colocalizes with collagen IV and fibroblasts in the skin are found to be the main cell type responsible for the deposition of both proteins. No therapy is available for this devastating disease.

[Did ketogenic diet in past centuries protect against the consequence of the cystatin L68Q mutation in carriers of HCCAA?]

Hereditary cystatin C amyloid angiopathy (HCCAA) is a dominantly inherited disease caused by a mutation (L68Q) in the cystatin C gene, CST3. Mutant cystatin C protein accumulates as amyloid in arterioles in the brain leading to repeated brain hemorrhages and death of young carriers. Recently a possible treatment option was reported for HCCAA carriers involving an oral treatment with N-acetyl-cysteine in order to increase glutathione which was found to dissolve aggregates of mutant cystatin C. An earlier study described how the life span of carriers of the L68Q mutation shortened in the latter half of the 19th century. During the same decades a drastic change occured in the diet in Iceland. In the beginning of the century the diet was simple and low in carbohydrates, which mostly came from milk products. Import of grains and sugar was limited, but increased greatly according to import records. Due to lack of salt, food was preserved in acid whey, but gradually salt replaced whey as means of preserving food. This study aims to explore if changes in the diet of Icelanders during the same decades could possibly affect the amount of glutathione in people.

NAC blocks Cystatin C amyloid complex aggregation in a cell system and in skin of HCCAA patients.

Hereditary cystatin C amyloid angiopathy is a dominantly inherited disease caused by a leucine to glutamine variant of human cystatin C (hCC). L68Q-hCC forms amyloid deposits in brain arteries associated with micro-infarcts, leading ultimately to paralysis, dementia and death in young adults. To evaluate the ability of molecules to interfere with aggregation of hCC while informing about cellular toxicity, we generated cells that produce and secrete WT and L68Q-hCC and have detected high-molecular weight complexes formed from the mutant protein. Incubations of either lysate or supernatant containing L68Q-hCC with reducing agents glutathione or N-acetyl-cysteine (NAC) breaks oligomers into monomers. Six L68Q-hCC carriers taking NAC had skin biopsies obtained to determine if hCC deposits were reduced following NAC treatment. Remarkably, ~50-90% reduction of L68Q-hCC staining was observed in five of the treated carriers suggesting that L68Q-hCC is a clinical target for reducing agents.

Pathological changes in basement membranes and dermal connective tissue of skin from patients with hereditary cystatin C amyloid angiopathy.

Hereditary cystatin C amyloid angiopathy (HCCAA) is a genetic disease caused by a mutation in the cystatin C gene. Cystatin C is abundant in cerebrospinal fluid and the most prominent pathology in HCCAA is cerebral amyloid angiopathy due to mutant cystatin C amyloid deposition with associated cerebral hemorrhages, typically in young adult carriers. Analyses of post-mortem brain samples shows that pathological changes are limited to arteries and regions adjacent to arteries. The severity of pathological changes at post-mortem has precluded the elucidation of the evolution of histological changes. Mutant cystatin C deposition in carriers is systemic and has, for example, been described in the skin, suggesting similar pathological mechanisms both in the brain and outside of the central nervous system. The aim of this study was to use skin biopsies from asymptomatic and symptomatic carriers to study intermediate events in HCCAA pathogenesis. We found that cystatin C deposition in minimally affected samples was limited to the basement membrane (BM) between the dermis and epidermis. When the deposits were more advanced, they extended to other BM regions in the skin. Our results showed that the immunoreactivity of the BM protein COLIV was increased to a similar extent in all carrier biopsies and cystatin C deposits were in close association with COLIV. The density of fibroblasts in the upper dermis of carrier skin was increased, whereas the distribution of other cell types examined did not differ compared with control biopsies. COLIV and cystatin C immunoreactivity in carrier biopsies was closely associated with the fibroblasts. The results of this study, in conjunction with our previous results regarding pathological BM changes in leptomeningeal arteries of patients, suggest that BM changes are early and important events in HCCAA pathogenesis that could facilitate cystatin C deposition and aggregation.

Deposition of collagen IV and aggrecan in leptomeningeal arteries of hereditary brain haemorrhage with amyloidosis.

Hereditary Cystatin C Amyloid Angiopathy (HCCAA) is a rare genetic disease in Icelandic families caused by a mutation in the cystatin C gene, CST3. HCCAA is classified as a cerebral amyloid angiopathy and mutant cystatin C forms amyloid deposits in cerebral arteries resulting in fatal haemorrhagic strokes in young adults. The aetiology of HCCAA pathology is not clear and there is, at present, no animal model of the disease. The aim of this study was to increase understanding of the cerebral vascular pathology of HCCAA patients with an emphasis on structural changes within the arterial wall of affected leptomeningeal arteries. Examination of post-mortem samples revealed extensive changes in the walls of affected arteries characterised by deposition of extracellular matrix constituents, notably collagen IV and the proteoglycan aggrecan. Other structural abnormalities were thickening of the laminin distribution, intimal thickening concomitant with a frayed elastic layer, and variable reduction in the integrity of endothelia. Our results show that excess deposition of extracellular matrix proteins in cerebral arteries of HCCAA is a prominent feature of the disease and may play an important role in its pathogenesis.