Histopathologic and Biochemical Evidence for Mitochondrial Disease Among 279 Patients with Severe Statin Myopathy.

BACKGROUND: Statins have well-known benefits in the prevention of cardiovascular disease, however, 7-29% of patients develop muscle side effects and up to 0.5% develop severe symptoms. Mitochondrial dysfunction has been associated with severe statin-induced myopathy (SM); however, there is a paucity of systematic studies in affected individuals. OBJECTIVES: The goal of this study was to combine clinical and laboratory features with quantitative biochemical and histopathologic studies of skeletal muscle biopsies from SM cases to determine what proportion could be attributed to mitochondrial dysfunction and how many of these had primary respiratory chain defects. METHODS: A retrospective analysis was performed on patient records derived from 279 SM patients whose muscle biopsies were referred to our clinical diagnostic laboratory for analysis. Clinical, histopathologic and biochemical features were compared with two myopathic control groups unexposed to statins: individuals with idiopathic mitochondrial myopathy (MMP; n = 94) and with unknown metabolic myopathy (UMP; n = 86); normal controls were unavailable for this record review study. RESULTS: More SM patients had significantly elevated plasma CK than in the other two groups (p < 0.01). A subset of SM patients (67 of 279; 24%) had histopathologic and/or electron microscopic (EM) evidence for mitochondrial dysfunction in skeletal muscle; more cases were identified by EM than by histochemical analysis. Of 279 cases, 29 (10%) were confirmed to have respiratory chain defects by biochemical analysis; 4 of these had mitochondrial abnormalities by EM. An additional 20 cases had mitochondrial abnormalities by EM without a biochemical diagnosis. CONCLUSIONS: Both primary and secondary mitochondrial dysfunction was found in subsets of SM patients. The fact that respiratory chain defects were not found in most cases with histopathologic mitochondrial abnormalities does not rule out primary mitochondrial disease in these cases, however, it is more likely that secondary effects on mitochondrial structure and function have occurred; molecular analysis may be helpful only in a small number of cases.

Regulatory T Cells Promote Myositis and Muscle Damage in Toxoplasma gondii Infection.

The coordination of macrophage polarization is essential for the robust regenerative potential of skeletal muscle. Repair begins with a phase mediated by inflammatory monocytes (IM) and proinflammatory macrophages (M1), followed by polarization to a proregenerative macrophage (M2) phenotype. Recently, regulatory T cells (Tregs) were described as necessary for this M1 to M2 transition. We report that chronic infection with the protozoan parasite Toxoplasma gondii causes a nonresolving Th1 myositis with prolonged tissue damage associated with persistent M1 accumulation. Surprisingly, Treg ablation during chronic infection rescues macrophage homeostasis and skeletal muscle fiber regeneration, showing that Tregs can directly contribute to muscle damage. This study provides evidence that the tissue environment established by the parasite could lead to a paradoxical pathogenic role for Tregs. As such, these findings should be considered when tailoring therapies directed at Tregs in inflammatory settings.

Phytosterols ameliorate clinical manifestations and inflammation in experimental autoimmune encephalomyelitis.

INTRODUCTION: Using experimental autoimmune encephalomyelitis (EAE), an animal model for multiple sclerosis (MS), the objective of this study was to examine the effect of phytosterol (PS) administration on inflammation-based EAE development. METHODS: Female SJL mice were orally administered PS prior to disease induction and maintained throughout the experiment. EAE was induced with antigenic peptide (PLP(131-155)). Mice were clinically scored for disease and euthanized for biochemical and histological analysis of inflammation. RESULTS: PS delayed onset of EAE development by 2 days and decreased disease severity by 55%. Brain histological analysis revealed an 82% decrease in central nervous system (CNS) inflammatory infiltration and a 48% decrease in demyelination in PS-treated mice versus control. Immunohistochemistry (IHC) showed a 35% reduction in macrophages entering brains of PS-treated mice. Anti-inflammatory interleukin (IL)-10 was up-regulated by 10%, while pro-inflammatory CCL2 was inhibited by 50% with PS treatment. Additionally, PS slightly decreased other pro-inflammatory factors, such as tumor necrosis factor (TNF)-α, IL-6, and interferon (IFN)-γ. CONCLUSION: PS protects against development of EAE by reducing infiltration and inflammatory activity of immune cells into CNS of treated mice, thereby decreasing demyelination associated with EAE. These results provide evidence to support PS as a preventative agent that helps to protect against the development of inflammation-driven disease, such as MS.

Hyaline inclusion myopathy: unmasked by statin therapy.

We report a case of a patient with history of alcohol abuse, treatment for hepatitis C and repeated strenuous physical activity who developed severe muscle pain and weakness during statin therapy. The symptoms persisted after discontinuation of the drug. The diagnosis of myopathy was made clinically and by electromyography. As his symptoms persisted a muscle biopsy was performed which showed inclusions consistent with hyaline inclusions. Hyaline inclusion myopathy is discussed in the context of this case with review of the literature.

Histogenesis of retinal dysplasia in trisomy 13.

BACKGROUND: Although often associated with holoprosencephaly, little detail of the histopathology of cyclopia is available. Here, we describe the ocular findings in a case of trisomy 13 to better understand the histogenesis of the rosettes, or tubules, characteristic of the retinal dysplasia associated with this condition. METHODS: A full pediatric autopsy was performed of a near term infant who died shortly after birth from multiple congenital anomalies including fused facial-midline structures. A detailed histopathological study of the ocular structures was performed. The expression of interphotoreceptor retinoid-binding protein (IRBP), cellular retinal-binding protein (CRALBP), rod opsin, and Sonic Hedgehog (Shh) were studied by immunohistochemistry. RESULTS: Holoprosencephaly, and a spectrum of anatomical findings characteristic of Patau's syndrome, were found. Cytogenetic studies demonstrated trisomy 13 [47, XY, +13]. The eyes were fused but contained two developed separate lenses. In contrast, the cornea, and angle structures were hypoplastic, and the anterior chamber had failed to form. The retina showed areas of normally laminated neural retina, whereas in other areas it was replaced by numerous neuronal rosettes. Histological and immunohistochemical studies revealed that the rosettes were composed of differentiated retinal neurons and Müller cell glia. In normally laminated retina, Shh expression was restricted to retinal-ganglion cells, and to a population of neurons in the inner zone of the outer nuclear layer. In contrast, Shh could not be detected in the dysplastic rosettes. CONCLUSION: The histopathology of cyclopia appears to be more complex than what may have been previously appreciated. In fact, the terms "cyclopia" and "synophthalmia" are misnomers as the underlying mechanism is a failure of the eyes to form separately during development. The rosettes found in the dysplastic retina are fundamentally different than those of retinoblastoma, being composed of a variety of differentiated cell types. The dysplastic rosettes are essentially laminated retina failing to establish a polarized orientation, resulting in the formation of tubules. Finally, our findings suggest that defective ganglion cell Shh expression may contribute to the ocular pathology of cyclopia.

Novel splicing mutation in the progranulin gene causing familial corticobasal syndrome.

Corticobasal syndrome (CBS) is a rare cognitive and movement disorder characterized by asymmetric rigidity, apraxia, alien-limb phenomenon, cortical sensory loss, myoclonus, focal dystonia, and dementia. It occurs along the clinical spectrum of frontotemporal lobar degeneration (FTLD), which has recently been shown to segregate with truncating mutations in progranulin (PGRN), a multifunctional growth factor thought to promote neuronal survival. This study identifies a novel splice donor site mutation in the PGRN gene (IVS7+1G-->A) that segregates with CBS in a Canadian family of Chinese origin. We confirmed the absence of the mutant PGRN allele in the RT-PCR product which supports the model of haploinsufficiency for PGRN-linked disease. This report of mutation in the PGRN gene in CBS extends the evidence for genetic and phenotypic heterogeneity in FTLD spectrum disorders.