[Vanishing white matter disease, a rare leukodystrophy with mutation in the EIF2B5 gene]. / Eltuno fehérállomány-betegség, a leukodystrophiák ritka altípusa az EIF2B5 gén mutációjával.

Background - Leukodystrophies, a hete­ro­­ge­neous group of brain and spinal cord dis­orders, often pose challenges in es­tab­li­shing molecular etiology. Vanishing White Matter Disease (VWMD) is a rare sub­type of leu­ko­dys­trophies presenting with characteristic clinical and MRI features, ne­ver­theless, achieving diag­nostic certainty requires genetic studies.

Case presentation - Our patient is a nine year old girl, who developed progressive gait difficulties at around 3-4 years of age. Her brain MRI showed confluent lesions with in­­creased signal intensity in the cerebral and cerebellar white matter on T2/FLAIR se­quen­ces, within which hypointense regions ap­peared with signal intensity resembling that of the cerebrospinal fluid on T1 sequences. Whole exome sequencing identified a homozygous likely pathogenic variant within the EIF2B5 gene in the proband, which was present in a heterozygous state in both asymptomatic parents. Having the clinical and molecular genetic diagnosis established, we explored therapeutic possibilities for the patient.

Conclusion - VWMD is a severe form of leukodystrophies with little or no disease modifying therapy available until recently. A better understanding of its molecular pathogenesis offers some hope for new inventive therapies. 

Glioblastoma epigenomics discloses a complex biology and potential therapeutic targets.

Background and purpose:

Glioblastoma (GBM), a highly aggressive form of brain tumors, has been extensively studied using OMICS methods, and the most characteristic molecular determinants have been incorporated into the histopathological diagnosis. Research data, nevertheless, only partially have been adopted in clinical practice. Here we aimed to present results of our epige­no­mic GBM profiling to better understand early and late determinants of these tumors, and to share main elements of our findings with practicing professionals.

GBM specimens were surgically obtained after first diagnosis (GBM1) and at recurrence (GBM2). DNA was extracted from 24 sequential pairs of formalin-fixed, paraffin-embedded tumor tissues. The Reduced Representation Bisulfite Sequencing kit was used for library preparation. Pooled libraries were sequenced on an Illumina NextSeq 550 instrument. Methylation controls (MC) were obtained from a publicly available database. Bioinformatic analyses were performed to identify differentially methylated pathways and their elements in cohorts of MC, GBM1 and GBM2.

Several differentially methylated pathways involved in basic intracellular and brain tissue developmental processes were identified in the GBM1 vs. MC and GBM2 vs. MC comparisons. Among differentially me­thylated pathways, those involved in immune regulation, neurotransmitter (particularly dopaminergic, noradrenergic and glutaminergic) responses and regulation of stem cell differentiation and proliferation stood out in the GBM2 vs. GBM1 comparisons.

Our study revealed biological complexity of early and late gliomagenesis encompassing mechanisms from basic intracellular through distorted neurodevelopmental processes to more specific immune and highjacked neurotransmitter pathways in the tumor microenvironment. These findings may offer considerations for therapeutic approaches.

ß-Adrenoreceptors in Human Cancers.

Cancer is the leading cause of death and represents a significant economic burden worldwide. The numbers are constantly growing as a result of increasing life expectancy, toxic environmental factors, and adoption of Western lifestyle. Among lifestyle factors, stress and the related signaling pathways have recently been implicated in the development of tumors. Here we present some epidemiological and preclinical data concerning stress-related activation of the ß-adrenoreceptors (ß-ARs), which contributes to the formation, sequential transformation, and migration of different tumor cell types. We focused our survey on research results for breast and lung cancer, melanoma, and gliomas published in the past five years. Based on the converging evidence, we present a conceptual framework of how cancer cells hijack a physiological mechanism involving ß-ARs toward a positive modulation of their own survival. In addition, we also highlight the potential contribution of ß-AR activation to tumorigenesis and metastasis formation. Finally, we outline the antitumor effects of targeting the ß-adrenergic signaling pathways, methods for which primarily include repurposed ß-blocker drugs. However, we also call attention to the emerging (though as yet largely explorative) method of chemogenetics, which has a great potential in suppressing tumor growth either by selectively modulating neuronal cell groups involved in stress responses affecting cancer cells or by directly manipulating specific (e.g., the ß-AR) receptors on a tumor and its microenvironment.

Neuroscience highlights: The mirror inside our brain.

Over the second half of the 19th century, numerous theories arose concerning mechanisms involved in understanding of action, imitative learning, language development and theory of mind. These explorations gained new momentum with the discovery of the so called "mirror neurons". Rizzolatti's work inspired large groups of scientists seeking explanation in a new and hitherto unexplored area of how we perceive and understand the actions and intentions of others, how we learn through imitation to help our own survival, and what mechanisms have helped us to develop a unique human trait, language. Numerous studies have addressed these questions over the years, gathering information about mirror neurons themselves, their subtypes, the different brain areas involved in the mirror neuron system, their role in the above mentioned mechanisms, and the varying consequences of their dysfunction in human life. In this short review, we summarize the most important theories and discoveries that argue for the existence of the mirror neuron system, and its essential function in normal human life or some pathological conditions.

Wnt pathway markers in low-grade and high-grade gliomas.

BACKGROUND AND PURPOSE: Aberrant activation of the Wnt pathway contributes to differentiation and maintenance of cancer stem cells underlying gliomagenesis. The aim of our research was to determine as to what degrees some Wnt markers are expressed in gliomas of different grades, lineages and molecular subtypes. METHODS: Nine grade II, 10 grade III and 72 grade IV surgically removed, formalin-fixed paraffin-embedded glioma specimens were included. Mutation status of IDH1 codon 132 was defined by immunohistochemistry and pyrosequencing in all tumors. Grade II and III astrocytic and oligodendroglial tumors were further tested for the expression of p53 and ATRX by immunohistochemistry, and codeletion of 1p19q by fluorescent in situ hybridization. Expression levels of the non-canonical Wnt5a and Fzd2, and the canonical Wnt3a and beta-catenin Wnt pathway markers were determined by immunohistochemistry, and compared between subgroups stratified according to grade, lineage and the presence or absence of IDH1 R132H/C mutations. RESULTS: In the normal brain - grade II-IV glioma comparisons, a gradual increase was observed for the expressions of Wnt5a, Wnt3a, Fzd2 and beta-catenin. In the astroglial and oligodendroglial lineages of grade II and III gliomas, only the Wnt5a expression was significantly higher in the astroglial subgroup. Stratification according to the IDH1 status resulted in a significant increase of the Wnt3 expression in the wild type grade II-IV gliomas. CONCLUSION: These data extend previous observations and show a correlation of Wnt pathway activity with glioma grade. Further investigations of the Wnt marker expression regulation according to glioma lineage or IDH gene mutational status are in progress by using more exact molecular approaches.

[Consensus statement of the Hungarian Clinical Neurogenic Society about the therapy of adult SMA patients]. / A Magyar Klinikai Neurogenetikai Társaság konszenzusajánlása a felnottkori spinalis izomatrophia (SMA) kezeléséhez.

BACKGROUND AND PURPOSE: Background - Spinal muscular atrophy (SMA) is an autosomal recessive, progressive neuromuscular disorder resulting in a loss of lower motoneurons. Recently, new disease-modifying treatments (two drugs for splicing modification of SMN2 and one for SMN1 gene replacement) have become available. Purpose - The new drugs change the progression of SMA with neonatal and childhood onset. Increasing amount of data are available about the effects of these drugs in adult patients with SMA. In this article, we summarize the available data of new SMA therapies in adult patients. METHODS: Methods - Members of the Executive Committee of the Hungarian Clinical Neurogenetic Society surveyed the literature for palliative treatments, randomized controlled trials, and retrospective and prospective studies using disease modifying therapies in adult patients with SMA. Patients - We evaluated the outcomes of studies focused on treatments of adult patients mainly with SMA II and III. RESULTS: In this paper, we present our consensus statement in nine points covering palliative care, technical, medical and safety considerations, patient selection, and long-term monitoring of adult patients with SMA. CONCLUSION: This consensus statement aims to support the most efficient management of adult patients with SMA, and provides information about treatment efficacy and safety to be considered during personalized therapy. It also highlights open questions needed to be answered in future. Using this recommendation in clinical practice can result in optimization of therapy.

Neuroscience highlights: Main cell types underlying memory and spatial navigation.

Interest in the hippocampal formation and its role in navigation and memory arose in the second part of the 20th century, at least in part due to the curious case of Henry G. Molaison, who underwent brain surgery for intractable epilepsy. The temporal association observed between the removal of his entorhinal cortex along with a significant part of hippocampus and the developing severe memory deficit inspired scientists to focus on these regions. The subsequent discovery of the so-called place cells in the hippocampus launched the description of many other functional cell types and neuronal networks throughout the Papez-circuit that has a key role in memory processes and spatial information coding (speed, head direction, border, grid, object-vector etc). Each of these cell types has its own unique characteristics, and together they form the so-called "Brain GPS". The aim of this short survey is to highlight for practicing neurologists the types of cells and neuronal networks that represent the anatomical substrates and physiological correlates of pathological entities affecting the limbic system, especially in the temporal lobe. For that purpose, we survey early discoveries along with the most relevant neuroscience observations from the recent literature. By this brief survey, we highlight main cell types in the hippocampal formation, and describe their roles in spatial navigation and memory processes. In recent decades, an array of new and functionally unique neuron types has been recognized in the hippocampal formation, but likely more remain to be discovered. For a better understanding of the heterogeneous presentations of neurological disorders affecting this anatomical region, insights into the constantly evolving neuroscience behind may be helpful. The public health consequences of diseases that affect memory and spatial navigation are high, and grow as the population ages, prompting scientist to focus on further exploring this brain region.

Cerebral cavernous malformation type 1 with retinal blood vessel tortuosity and KRIT1 gene mutation.

Cerebral cavernous malformations (CCMs) represent a relatively rare and heterogeneous clinical entity with mutations identified in three genes. Both sporadic and familial forms have been reported. We present a young female patient with episodic paresthesia and headaches, but without acute neurological deficits. Her mother had a hemorrhaged cavernoma surgically removed 21 years ago. Cranial magnetic resonance imaging revealed multiple cavernous malformations in the size of a few millimeters and the ophthalmologic exam detected retinal blood vessel tortuosity in the proband. Targeted exome sequencing analysis identified a nonsense mutation in exon 16 of the KRIT1 gene, which resulted in a premature stop codon and a truncated protein underlying the abnormal development of cerebral and retinal blood vessels. This mutation with pathogenic significance has been reported before. Our case points to the importance of a thorough clinical and molecular work up despite the uncertain neurological complaints, since life style recommendations, imaging monitoring and genetic counseling may have major significance in the long term health of the patient.

Secretory meningioma with bone infiltration and orbital spreading.

Secretory meningioma is a rare form of meningiomas which differentiates from the meningothelial subtype. It is characterized by significant peritumor edema and distinct immunohistochemical and molecular genetic profiles. We present a middle aged female patient with secretory meningioma infiltrating the orbital bone from the primary cranial base location and causing exophthalmos, features rarely described with this tumor. Surgical resection was challenging because of the associated brain swelling and rich vascularization of the tumor. Imaging and immunohistochemical studies revealed characteristic hallmarks of secretory meningioma. While histologically it was a benign tumor, due to the orbital bone and soft tissue infiltration, postoperative management of neurological sequelae was challenging. This case highlights distinctive clinical, imaging and histological features along with individual characteristics of a rare form of meningiomas.

[Nusinersen in the treatment of spinal muscular atrophy]. / Nusinersen a spinalis izomatrophia kezelésében.

Until recently, the diagnosis of spinal muscular atrophy (SMA) has been associated with severe life-long motor disability in adults and with early death in infants. The new experimental therapeutic approaches of the last few years have become more and more promising, while nusinersen was approved for the treatment of SMA in December 2016 in the USA, and in May 2017 in Hungary. Our paper presents mechanisms and clinical benefits of this new medication, and highlights some of the other therapeutic strategies still in experimental stages.

Isocitrate dehydrogenase mutations in defining the biology of and supporting clinical decision making in glioblastoma.

BACKGROUND AND PURPOSE: Oncogenesis is related to a sequential accumulation of somatic mutations. Comprehensive characterizations of the genomic landscapes have been completed recently for several tumors, glioblastoma being among the first ones. Our own translational research studies have been focused on defining molecular subtypes of glioblastoma in the clinical setting because of an expected prognostic and therapeutic utility of the information. Somatic mutations in genes of the isocitrate dehydrogenase (IDH) enzyme family appear to be among the best-defined biomarkers that also influence tumor behavior and confer clinical utility. METHODS: We have reviewed the literature including our own results to summarize basic science and clinical correlates of IDH mutations. RESULTS: The surveyed data reveal genomic, transcriptomic, epigenomic and biochemical consequences of IDH mutations in the context of glioblastoma biology and phenotype. In addition, a few studies highlight the therapeutic potential of targeting IDH, although thus far all tests have only been conducted in the preclinical setting. CONCLUSION: Somatic mutations in isoforms of IDH genes represent important biomarkers that correlate with biochemical, biological and phenotypic features of glioblastoma, and may also facilitate the development of new therapeutic strategies complementing the currently available approved protocols.

[Pathogenic alterations within the neurofibromin gene in various cancers]. / A neurofibromin-1 gén kóros elváltozásai daganatos betegségekben.

The product of the neurofibromin gene (NF1) belongs to the family of tumor suppressor proteins. Neurofibromin plays important roles in the negative regulation of signaling pathways where the Ras oncogen is involved. The protein and gene names were derived from the disease, neurofibromatosis type 1 that is caused by germline mutations in NF1 and inherited by an autosomal dominant manner. Besides germline mutations, acquired, somatic mutations are also observed in NF1 in several malignant and benign tumors. NF1 mutations have been identified in a great number of solid tumors, leukemias and malignant skin lesions (e.g. melanoma). Such mutations define certain subsets of gliomas. More specifically, a molecular subset of glioblastomas, termed the mesenchymal subtype, is most frequently associated with somatic NF1 deletions and mutations. The aim of this survey is to provide an overview of the most frequent alterations in the NF1 gene with their effects on the function of the protein and the biology of the cell, as well as of the resultant diseases. Simultaneously, we give some insight into ongoing research studies investigating abnormalities of NF1.

[GENETICALLY DETERMINED DISEASES ASSOCIATED WITH PATHOLOGICAL BRAIN IRON ACCUMULATION AND NEURODEGENERATION]. / GENETIKAILAG MEGHÁTAROZOTT, AGYI VASFELHALMOZÓDÁSSAL ÉS NEURODEGENERÁCIÓVAL JÁRÓ KÓRKÉPEK.

The rare, genetically determined group of diseases characterized by pathological accumulation of iron in the central nervous system and progressive, typically movement disorder's symptoms are called NBIA (neurodegeneration with brain iron accumulation). By the rapid development of molecular genetics, it has become apparent that different mutations in numerous genes can lead to pathological cerebral iron accumulation. Simultaneously, it has also been recognized that the age of onset, the symptoms and the prognosis of NBIA disorders are much more diverse than it was previously perceived. To our knowledge, a review article on the most recent clinical data of NBIA has not been published in Hungarian. In the first part of this publication, we survey the general clinical characteristics and the diagnostic algorithm of NBIA diseases and address some considerations for differential diagnostics. In the second part of this review, the particular NBIA disorders are presented in details. The purpose of this article is to provide a clinical overview that may be useful for neurologists, pediatricians and any other medical practitioners interested in this field.

[Changing times - changing diseases. Review of the neuropathological autopsy documentations at the Markusovszky University Teaching Hospital (1964-2014)]. / Változó idok - változó betegségek. A Markusovszky Egyetemi Oktatókórház neuropatológiai autopsziás anyagának áttekintése (1964-2014).

INTRODUCTION: Nearly 6000 autoptic studies were carried out during the last 50 years at the Laboratory of Neuropathology, Markusovszky University Teaching Hospital, Hungary. AIM: The aim of the authors was to present those previously frequent and often fatal conditions that can be prevented or treated today. METHOD: Retrospective analyses of the neuropathological documentations. RESULTS: Measles-related subacute sclerosing panencephalitis caused death in 13 cases, the last occurred in 1991. The mandatory vaccination against the causative virus has eliminated this severe neurological complication. Fourteen lives were lost due to herpes simplex encephalitis, including the last case seen in 1999. Feasibility of early diagnosis and the availability of acyclovir therapy resulted in better outcome without fatality. Tuberculous meningitis still occurred in most recent years, although only sporadically. Recognition of this condition is not straightforward due to its rarity, and considerations for this disease are often omitted from the routine differential diagnosis. The generally low mortality rates in tick borne encephalitis further dropped after the introduction of vaccination. Altogether only 8 such cases were documented. The last fatal cases of neurolues were seen in the 1990s. However, syphilis itself has not disappeared, and the number of cases with newly acquired infection continues to rise. The introduction of intrathecal methotrexate and radiotherapy made possible the prevention or effective treatment of meningeal leukosis. A careful coordination of these treatment modalities, however, is important as nervous system complications may develop in the form of disseminated necrotizing leukoencephalopathy that is also reflected in the records. CONCLUSIONS: The 50-year neuropathology documentation reflects changes in the occurrence of diseases, and it calls attention to those disorders which can be prevented or treated today, but may represent diagnostic challenges.

Complex approaches to study complex trait genetics in multiple sclerosis.

Multiple sclerosis (MS) is a complex trait disorder defined by several genes and their interactions with environmental factors. A comprehensive exploration of the susceptibility variants had not been feasible until recently when new developments in biotechnology and bioinformatics made possible sequencing of the whole human genome, cataloguing of nucleotide variants and alignments of these variants in haplotypes. Earlier observations from epidemiological, candidate gene and linkage studies provided ample evidence to support a complex genetic determination of MS. New biotechnology and bioinformatics resources have been recently applied to further successful explorations of the disease. These efforts were paralleled by more careful and reliable ascertainments of disease phenotypes, collaborations among specialized centers to generate sufficient sample size and involvement of clinician-scientists capable of working both on the clinical and scientific study sides. Data obtained from the whole genome association studies (GWAS) elevated our understanding of MS genetics to a new level by identifying an extensive list of genetic determinants. Pathway analyses of MS-associated variants provided evidence to support the immune etiology of the disease. Future research will likely explore how environmental factors interact with the genome, and contribute to the abnormal immune activation and inflammation. This review summarizes the outcomes of MS genetic explorations including those of recent GWAS, and highlights practical consequences of genetic and genomic studies by pointing out as to how the derived data facilitate further elucidation of MS pathogenesis. A better understanding of disease processes is necessary for future advancements in therapeutics and the development of disease prevention strategies.

ASSOCIATION OF TEMPORAL LOBE INFLAMMATORY LEUKOENCEPHALOPATHY WITH TWO B CELL MALIGNANCIES.

Identification of etiological connections among virtually distinct diseases in a patient may be sometimes challenging. We report a unique case with two B cell malignancies and an inflammatory leukoencephalopathy. Three days prior to admission, the elderly male patient developed fatigue, headaches, recurrent vomiting, memory disturbances, depression and somnolence. Clinical, laboratory and imaging evaluations as well as post mortem histological studies were performed. Simultaneous presence of primary central nervous system B cell lymphoma, temporal lobe inflammatory leukoencephalopathy and multiple (smoldering) myeloma, was revealed by the detailed work up in the treatment-naïve patient. Based on recent data from genomic studies, we propose that a sequential evolution of molecular pathology lead to the co-occurrence of multiple myeloma and primary central nervous system B cell lymphoma in this patient, and interpret the development of the temporal lobe leukoencephalopathy as a likely paraneoplastic complication of smoldering myeloma.

[Clinical value of two methods to measure parathyroid hormone in chronic renal insufficiency, considering vitamin D metabolism]. / Kétféle parathormonmérési módszer klinikai értékének vizsgálata krónikus veseelégtelenségben a D-vitamin-ellátottság figyelembevételével.

INTRODUCTION: Parathyroid hormone levels provide important information in chronic renal failure. AIM: To compare parathyroid hormone levels measured by two assays in correlation with vitamin D supply. METHOD: Parathyroid hormone and 25-hydroxi-vitamin-D were determined in 104 patients (31 patients with chronic renal failure without renal replacement therapy, 36 patients treated with peritoneal dialysis and 37 patients treated with hemodialysis). RESULTS: Good correlation was found between results of the two parathyroid hormone methods, but the intact parathyroid hormone levels were higher than the biointact values. 87% and 13% of the patients had vitamin-D deficiency and insufficiency, respectively. The frequency of serious vitamin-D deficiency was higher in the peritoneal dialysis than in the hemodialysis group. Intact parathyroid hormone levels were different in dialysed patients having vitamin-D-deficiency and insufficiency, and the difference was higher for the biointact than intact values. Negative correlation was detected between biointact parathyroid hormone and 25-hydroxivitamin-D in the hemodialysis group. CONCLUSIONS: Biointact parathyroid hormone levels better reflect the vitamin D supply and bone metabolism than intact levels, especially in hemodialysed patients.

[Ectrodactyly-ectodermal dysplasia-clefting (EEC) syndrome]. / Ectrodactylia, ectodermalis dysplasia, ajak- és szájpadhasadék szindróma.

The ectrodactyly-ectodermal dysplasia-clefting syndrome is an extremely rare genetic disorder that is inherited as an autosomal dominant trait, but can also occur sporadically. It is characterized by the triad of ectrodactyly (absence of fingers), ectodermal dysplasia and cleft lip and palate along with variable involvement of other organs. Both the ectodermal and mesodermal tissues may be affected resulting in a spectrum of phenotypes. Early diagnosis and treatment signify a unique challenge for those involved in the clinical management, while enable counseling and preparation of parents for the tasks ahead of them. In our report, we describe the case of a patient with sporadic EEC syndrome. In addition to the presentation of the complex phenotype along with the medical interventions, we summarize the most important characteristics of the disease, the diagnostic and therapeutic possibilities as well as the clinical significance of the accurate genetic verification. Using whole exome sequencing, we identified in the 3q28 chromosomal region a pathogenic mutation within the TP63 gene previously linked to the EEC3 phenotypes. The knowledge of pathogenic mutation provides the means to prenatal diagnostics or in vitro fertilization methods that allows us to minimize the possibility of inheriting the syndrome in the patient's offspring. By presenting our case, we aim to draw attention to this rare and disabling disease that requires the high quality works of a multidisciplinary team capable of ensuring good quality of life for the patient. Orv Hetil. 2023; 164(46): 1831-1837.

[Littoral cell angioma]. / Dongasejtes angioma.

Splenic rupture secondary to blunt trauma is a common condition. Non-traumatic, also known as spontaneous or pathological splenic rupture is an uncommon, but potentially life-threatening condition. Spontaneous splenic rupture caused by a primary splenic tumor is rare. In this case study, we present a special, benign tumor causing splenic rupture. Our 78-year-old female patient was hospitalized due to left shoulder pain and chest discomfort. Her blood pressure was low, the laboratory tests showed anemia, and the chest CT scan involving also the upper abdomen raised the suspicion of a splenic rupture. During the emergency splenectomy, there was a large amount of blood in the abdominal cavity. Macroscopic pathological examination of the removed spleen showed multifocal cystic lesions that led to splenic rupture. Immunhistochemical analyses revealed a littoral cell angioma. Littoral cell angioma is a rare, benign vascular tumor of the spleen, which is thought to originate from the red pulp sinuses lined with littoral cells. The aim of our report is to describe an unusual cause of sudden splenic rupture without traumatic history, the histologically benign littoral cell angioma that has not been published in Hungary. Orv Hetil. 2023; 164(10): 393-397.

[Case report: molecular analysis of congenital glioblastoma in a newborn]. / Esettanulmány: molekuláris vizsgálatok újszülöttkori glioblasztómában.

BACKGROUND: Congenital glioblastoma (cGBM) is a brain tumor very rarely observed in newborns and young infants, and differs in several respects from glioblastoma (GBM) of childhood and adulthood. Our aim was the presentation of a cGBM case with 14 days of postnatal survival at the Pediatric Oncology Center of the Markusovszky University Teaching Hospital in 2004. We investigated formalin-fixed, paraffin-embedded autoptic tumor samples of the newborn by immunohistochemical and molecular genetic (FISH and pyrosequencing) methods. We found polysomy of chromosome 2 and 5' deletion of the ALK gene in the glioma cells by ALK FISH. This result indicates the importance of molecular analyses in the diagnostic evaluation of cGBM, and raises the possibility of a personalized, targeted therapy (crizotinib, alectinib).