Studio degli aplogruppi mitocondriali nei pazienti con narcocataplessia

La narcolessia è un disturbo del sonno disabilitante caratterizzato da eccessiva sonnolenza diurna associata a disturbi del sonno REM che si manifestano con cataplessia (improvvisa perdita del tono muscolare scatenata da forti emozioni), paralisi del sonno (all’addormentamento o al risveglio) e allucinazioni ipnagogiche. Al momento attuale sono in corso studi di genome-wide solo sul genoma nucleare, l'unico ulteriore materiale genetico non indagato finora per una eventuale predisposizione genetica multifattoriale alla narcolessia è il genoma mitocondriale, che, a causa della sua variabilità, possiede un potenziale ruolo protettivo/predisponente nell’ambito di diverse malattie neurodegenerative, metaboliche ed infettive. Come obiettivo della tesi si propone la ricerca di eventuali polimorfismi sul DNA mitocondriale in grado di agire come fattori di suscettibilità/protezione nei confronti della narcolessia e di confermare quindi l’importante legame tra metabolismo bioenergetico, beta ossidazione e narcolessia. In particolare, vista la già nota capacità degli aplogruppi mitocondriali di modulare l’espressione di diverse malattie neurodegenerative, sono stati identificati i principali aplogruppi mitocondriali in un campione di pazienti con narcolessia successivamente confrontati con una popolazione di controllo per cercare eventuali differenze di distribuzione statisticamente significative tra le due popolazioni. I risultati presentati in questo studio completano con l’analisi del DNA mitocondriale i precedenti studi “genome wide”. L’assenza di associazione statisticamente significativa tra aplogruppi mitocondriali e narcolessia non esclude ancora il ruolo che la variabilità genetica del DNA mitocondriale può giocare nella patogenesi della narcolessia. La definitiva esclusione può essere conclusa solo espandendo la coorte dei pazienti studiati e considerando possibilmente origini etnico-geografiche diverse

Mitochondrial Neurogastrointestinal encephalomyopathy: Evidence of mitochondrial DNA depletion in the small intestine

BACKGROUND & AIMS: Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) is an autosomal recessive disease clinically defined by gastrointestinal dysmotility, cachexia, ptosis, ophthalmoparesis, peripheral neuropathy, white-matter changes in brain magnetic resonance imaging, and mitochondrial abnormalities. Loss-of-function mutations in thymidine phosphorylase gene induce pathologic accumulations of thymidine and deoxyuridine that in turn cause mitochondrial DNA (mtDNA) defects (depletion, multiple deletions, and point mutations). Our study is aimed to define the molecular basis of gastrointestinal dysmotility in a case of MNGIE. METHODS: By using laser capture microdissection techniques, we correlated histologic features with mtDNA abnormalities in different tissue components of the gastrointestinal wall in a MNGIE patient and ten controls. RESULTS: The patient's small intestine showed marked atrophy and mitochondrial proliferation of the external layer of muscularis propria. Genetic analysis revealed selective depletion of mtDNA in the small intestine compared with esophagus, stomach, and colon, and microdissection analysis revealed that mtDNA depletion was confined to the external layer of muscularis propria. Multiple deletions were detected in the upper esophagus and skeletal muscle. Site-specific somatic point mutations were detected only at low abundance both in the muscle and nervous tissue of the gastrointestinal tract. Analysis of the gastrointestinal tract from 10 controls revealed a non-homogeneous distribution of mtDNA content; the small intestine had the lowest levels of mtDNA. CONCLUSION: Atrophy, mitochondrial proliferation, and mtDNA depletion in the external layer of muscularis propria of small intestine indicate that visceral myopathy is responsible for gastrointestinal dysmotility in this MNGIE patient

Gastrointestinal Dysmotility in Mitochondrial Neurogastrointestinal Encephalomyopathy Is Caused by Mitochondrial DNA Depletion

Chronic intestinal pseudo-obstruction is a life-threatening condition of unknown pathogenic mechanisms. Chronic intestinal pseudo-obstruction can be a feature of mitochondrial disorders, such as mitochondrial neurogastrointestinal encephalomyopathy (MNGIE), a rare autosomal-recessive syndrome, resulting from mutations in the thymidine phosphorylase gene. MNGIE patients show elevated circulating levels of thymidine and deoxyuridine, and accumulate somatic mitochondrial DNA (mtDNA) defects. The present study aimed to clarify the molecular basis of chronic intestinal pseudo-obstruction in MNGIE. Using laser capture microdissection, we correlated the histopathological features with mtDNA defects in different tissues from the gastrointestinal wall of five MNGIE and ten control patients. We found mtDNA depletion, mitochondrial proliferation, and smooth cell atrophy in the external layer of the muscularis propria, in the stomach and in the small intestine of MNGIE patients. In controls, the lowest amounts of mtDNA were present at the same sites, as compared with other layers of the gastrointestinal wall. We also observed mitochondrial proliferation and mtDNA depletion in small vessel endothelial and smooth muscle cells. Thus, visceral mitochondrial myopathy likely causes gastrointestinal dysmotility in MNGIE patients. The low baseline abundance of mtDNA molecules may predispose smooth muscle cells of the muscularis propria external layer to the toxic effects of thymidine and deoxyuridine, and exposure to high circulating levels of nucleosides may account for the mtDNA depletion observed in the small vessel wall