Spinal muscular atrophy (SMA) is an autosomal recessive disease characterized by degeneration of the anterior horn cells of the spinal cord, causing symmetric proximal muscle weakness. SMA is classified in three clinical types, SMA I, SMA II, and SMA III, based on the severity of the symptoms and the age of onset. About 95% of SMA cases are caused by homozygous deletion of the survival motor neuron 1 (SMN1) gene (5q13), or its conversion to SMN2. The molecular diagnosis of this disease is usually carried out by a polymerase chain reaction-restriction fragment length polymorphism approach able to evidence the absence of both SMN1 copies. However, this approach is not able to identify heterozygous healthy carriers, which show a very high frequency in general population (1:50). We used the multiple ligation-dependent probe amplification (MLPA) approach for the molecular diagnosis of SMA in 19 affected patient and in 57 individuals at risk to become healthy carriers. This analysis detected the absence of the homozygous SMN1 in all the investigated cases, and allowed to discriminate between SMN1 deletion and conversion to SMN2 on the basis of the size showed by the peaks specific for the different genes mapped within the SMA critical region. Moreover, MLPA analysis evidenced a condition of the absence of the heterozygous SMN1 in 33 out of the 57 relatives of the affected patients, demonstrating the usefulness of this approach in the identification of healthy carriers. Thus, the MLPA technique represents an easy, low cost, and high throughput system in the molecular diagnosis of SMA, both in affected patients and in healthy carriers.
Nomifensine, an antidepressant agent which activates dopamine (D) neurotransmission mainly by inhibiting DA reuptake in the central nervous system, was administered either to puerperal lactating women or to subjects with nonpuerperal hyperprolactinemia. In 10 postpartum women and in 7 women with no evidence of PRL-secreting tumor, oral administration of nomifensine (100 or 200 mg, respectively) induced in the following 5 h a clear-cut inhibition of plasma PRL levels; in 10 patients with PRL-secreting tumors, the drug did not lower plasma PRL levels. In 2 of these patients nonsupressibility of plasma PRL levels to nomifensine was the only indication of the existence of a pituitary microadenoma. It is proposed that acute nomifensine testing may be a valid neuropharmacological tool for discriminating between individuals with and without pituitary adenoma.
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