Beatriz San Millán

Lafora bodies and neurological defects in malin-deficient mice correlate with impaired autophagy

Lafora disease (LD), a fatal neurodegenerative disorder characterized by the presence of intracellular inclusions called Lafora bodies (LBs), is caused by loss-of-function mutations in laforin or malin. Previous studies suggested a role of these proteins in the regulation of glycogen biosynthesis, in glycogen dephosphorylation and in the modulation of the intracellular proteolytic systems. However, the contribution of each of these processes to LD pathogenesis is unclear. We have generated a malin-deficient (Epm2b-/-) mouse with a phenotype similar to that of LD patients. By 3-6 months of age, Epm2b-/- mice present neurological and behavioral abnormalities that correlate with a massive presence of LBs in the cortex, hippocampus and cerebellum. Sixteen-day-old Epm2b-/- mice, without detectable LBs, show an impairment of macroautophagy (hereafter called autophagy), which remains compromised in adult animals. These data demonstrate similarities between the Epm2a-/- and Epm2b-/- mice that provide further insights into LD pathogenesis. They illustrate that the dysfunction of autophagy is a consequence of the lack of laforin-malin complexes and a common feature of both mouse models of LD. Because this dysfunction precedes other pathological manifestations, we propose that decreased autophagy plays a primary role in the formation of LBs and it is critical in LD pathogenesis.

A novel MYH7 mutation links congenital fiber type disproportion and myosin storage myopathy

This study aimed to identify the genetic defect in a multigenerational family presenting an autosomal dominant myopathy with histological features of congenital fiber type disproportion. Linkage analysis and genetic sequencing identified, in all affected members of the family, the c.5807A>G heterozygous mutation in MYH7, which encodes the slow/β-cardiac myosin heavy chain. This mutation causes skeletal but not cardiac involvement. Myosin heavy chain expression pattern was also characterized by immunohistochemistry, western blot and q-PCR in muscle biopsies from two patients aged 25 and 62, respectively. While only congenital fiber type disproportion was observed in the younger patient, older patients biopsy presented aggregates of slow myosin heavy chains, in fiber sub-sarcolemmal region. These clinico-pathologic findings suggest a novel phenotype within the emerging group of hereditary myosin myopathies, which in this family presents typical characteristics of congenital fiber type disproportion in early stages and later evolves to myosin storage myopathy.

Molecular and clinical study of McArdle's disease in a cohort of 123 European patients. Identification of 20 novel mutations.

McArdles disease is the most common muscle glycogenosis. It is caused by the deficiency of myophosphorylase, encoded by the PYGM gene. We studied 123 patients previously diagnosed with McArdles disease and we identified 20 novel mutations (10 missense and 3 nonsense mutations, 3 small deletions, 2 gross deletions and 2 small insertions). Most patients of this cohort belong to Spanish and French populations. This allowed us to determine the differences between the allelic frequencies of the common mutations R50X and G205S of these populations. The R50X has an allelic frequency in this cohort of about 61.7%, being 68.5% in French and 53.7% in Spanish patients. The G205S had a higher allelic frequency in the Spanish (10.2%) than in the French population (3.2%). Moreover, a clinical study of 91 patients was performed to establish both genotype-phenotype correlation and gender influence in the severity of the disease. We conclude that no genotype-phenotype correlation is evident and that no gender effect is related to the phenotype.

Malin knockout mice support a primary role of autophagy in the pathogenesis of Lafora disease

Lafora disease (LD), a fatal neurodegenerative disorder characterized by intracellular inclusions called Lafora bodies (LBs), is caused by recessive loss-of-function mutations in the genes encoding either laforin or malin. Previous studies suggested a role of these proteins in regulating glycogen biosynthesis, in glycogen dephosphorylation and in the modulation of intracellular proteolytic systems. However, the contribution of each of these processes to LD pathogenesis is unclear. Here we review our recent finding that dysfunction of autophagy is a common feature of both laforin- and malin-deficient mice, preceding other pathological manifestations. We propose that autophagy plays a primary role in LD pathogenesis and is a potential target for its treatment.

Pathology and Diagnosis of Muscular Dystrophies

Limb girdle muscular dystrophies are a heterogeneous group of muscle disorders predominantly affecting the pelvic and shoulder girdles. They have been classified into autosomal recessive and dominant forms, the former being by far the commonest. Genetic analyses have led to the description of 14 recessive forms and 7 dominant. In four of the dominant forms the chromosomal loci have been localised but the gene and the protein have not been yet identified. The genes and proteins in these subgroups are localised over a wide range across the muscle fiber and at the extracellular matrix. Immunohistochemistry and Western blotting analyses of the proteins involved in the various forms of muscular dystrophies, have permitted a refined pathological approach, necessary to conduct genetic studies and to offer an appropriate genetic counseling. The application of molecular medicine in genetic muscular dystrophies also brings great expectations to the therapeutic management of these patients.

Histopathology of Skin in Fabry Disease

Fabry disease (FD) is a lysosomal storage disorder (LSD) with multisystem manifestations among which skin lesions are common and well-recognized. They may appear early in childhood in both hemizygous males and heterozygous females, their frequency increasing with age. In addition to dermatological lesions, normal-looking skin, as occurs with other tissues, accumulates unmetabolized products in multiple cells of different embryonic origin with variable distribution, biochemical and staining properties and morphological features, according to the type of stored material and the physiopathology of the disease. Globotryaosil-ceramide (Gb3), the most abundant glycosphyngolipid accumulated in FD, can be specifically documented with immunocytochemical methods using a particular monoclonal antibody. On the other hand, ultrastructural characteristics of Gb3 and its distribution in dermal cells are well-defined. Furthermore, the study of unmyelinated and small myelinated fibers in epidermal nerve endings is a reflection of the impaired sensory innervation and the characteristic painful neuropathy present in FD. Therefore, a combination of different technologies in tissues obtained with noninvasive techniques, such as skin biopsy, is advisable and should be considered in order to obtain better insights into FD. This is essential in the case of heterozygous women in whom biochemical diagnosis is often controversial.

Advanced glycation end products (AGEs) estimated by skin autofluorescence are related with cardiovascular risk in renal transplant

Background Advanced glycation end products (AGEs) accumulation, a measure of cumulative metabolic stress, constitute a novel pathogenic mechanism involved in aging, diabetes, cardiovascular (CVD) and chronic kidney disease (CKD). Despite removal of uremic toxins and AGEs after a successful renal transplant (RT), CVD remains the leading cause of mortality. We hypothesized that AGEs measurement by Skin Autofluorescence (SAF) might be useful even after a successful RT and thus reflect the high cardiovascular risk burden of these patients. Methods 189 stable RT (61% men, aged 56±13.0 years), CKD stages 1–4 and >12 months since RT were enrolled. Variables collected comprised comorbid history, medication use, smoking habit, routine biochemistry, subclinical atheromatosis by ankle-brachial-index (ABI) and allograft resistivity index (RI), 24-h ABPM, anthropometry and handgrip strength. AGEs were measured by SAF and expressed in arbitrary units (AU). Vascular age was estimated by Koetsier´s formula (SAF-0.83/0.024) and expected 10-years cardiovascular death risk was calculated with the REGICOR score. Results Mean SAF was 3.00±0.83 AU and estimated vascular age 90±34.7 years (30 years above biological age). SAF was higher among men (3.10±0.91 vs 2.81±0.66), diabetic nephropathy (3.49±0.75 vs 2.96±0.83) and steroid users (3.14±0.86 vs 2.71±0.69). We observed a positive correlation of SAF with night-systolic blood pressure (r = 0.25, p = 0.001), parathormone (r = 0.20, p<0.01), phosphate (r = 0.28, p<0.001) and negative with hemoglobin (r = -0.29, p<0.001), CKD-EPI (r = -0.32, p<0.001), albumin (r = -0.17, p<0.05), and dynamometry (r = -0.20, p<0.01). Subclinical vascular atheromatosis (ABI and RI) as well as the REGICOR scale (r = 0.35 p<0.001) were also correlated with SAF. In multivariable analysis age, gender, steroid use, serum phosphate and handgrip strength remained independently associated with SAF. Conclusions SAF levels are elevated in RT patients and correlate with CVD risk. Besides age and male sex, our results suggest that phosphate overload, steroid use and nutritional status are important factors linking to AGEs accumulation.

Phenotypical features of a new dominant GDAP1 pathogenic variant (p.R226del) in axonal Charcot-Marie-Tooth disease

There are few reports on axonal CMT due to dominant GDAP1 mutations. We describe two unrelated Spanish families with a dominant axonal CMT. A novel in frame GAA deletion in exon 5 of the GDAP1 gene (c.677_679del; p.R226del) was identified in both families. Disease onset varied from early childhood to adulthood. Affected family members complained of distal lower limb weakness, cramps and foot deformities with variable CMTNS score in both families. Several individuals were asymptomatic or had paraesthesia only, however neurological examination and nerve conduction studies demonstrated neuropathic signs. Transfection of HeLa cells with the p.R226del mutation led to an increased mitochondrial aggregation. We report an AD-CMT2K with large phenotypic variability due to a novel dominant GDAP1 variant. This is the second founder GDAP1 pathogenic variant reported in Spain.

SBF1 mutations associated with autosomal recessive axonal neuropathy with cranial nerve involvement

Biallelic mutations in the SBF1 gene have been identified in one family with demyelinating Charcot-Marie-Tooth disease (CMT4B3) and two families with axonal neuropathy and additional neurological and skeletal features. Here we describe novel sequence variants in SBF1 (c.1168C>G and c.2209_2210del) as the potential causative mutations in two siblings with severe axonal neuropathy, hearing loss, facial weakness and bulbar features. Pathogenicity of these variants is supported by co-segregation and in silico analyses and evolutionary conservation. Our findings suggest that SBF1 mutations may cause a syndromic form of autosomal recessive axonal neuropathy (AR-CMT2) in addition to CMT4B3.

Restless Legs Syndrome: An Unresolved Uremic Disorder after Renal Transplantation

Background: Restless legs syndrome (RLS) is a common complication of uremia that may improve after transplantation. Its frequency might not be as low as expected, as some uremic disturbances may continue even after a successful graft. Our aim was to investigate the prevalence and related conditions for RLS in renal transplant patients. Methods: We carried out a cross-sectional, observational study. A self-administered questionnaire following the International Restless Legs Syndrome Study Group diagnostic criteria was administered to 129 patients (82 men and 47 women) aged 57 ± 12.8 years followed up for at least 1 year, with stable renal function (Cr 1.5 ± 0.54 mg/dL). Patients with probable RLS according to the screening questionnaire underwent comprehensive neurological examination to exclude RLS mimics. Results: The frequency of RLS according to questionnaires was 29.5% (18 men/20 women). After neurological exam, RLS was confirmed in 19 patients providing an overall frequency of 14.8% (higher than the prevalence in the general population). A definitive diagnosis of RLS was established for 6 men (7.3%) and 13 women (27.7%), indicating a positive predictive value for the screening questionnaire of 65% for women and 33% for men. There were fewer patients under renin-angiotensin aldosterone system (RAAS) blocking treatment in the RLS group (21.1 vs. 47.3%). Women with RLS had poorer renal function (52 ± 17.5 vs. 42 ± 13.9 mL/min) and phosphate-reabsorption rate (75 ± 10.5 vs. 65 ± 9.2). There was no difference in age, comorbidities, anticalcineurin therapy, renal function, anemia and time since transplantation between transplant patients with and without RLS. Conclusion: The prevalence of RLS after transplantation remains high (14.8%). This condition is twice more prevalent for females. Contribution of RAAS, graft function and phosphate overload requires further investigation.