Notch1 expression and ligand interactions in progenitor cells of the mouse olfactory epithelium

Despite the relatively simplified organization of the olfactory epithelium (OE), our understanding of the factors that regulate its cellular diversity is limited. Genetic and localization studies suggest that Notch signaling may be important in this process. We characterize here a population of Notch1 ⁺ olfactory basal cells in embryonic mice that coordinately express both the Notch effector Hes5 and the glycosyltransferase Lfng. These cells are distinct from Mash1 ⁺ neuronal precursors, but give rise to sensory neurons, suggesting that Notch1 signals may in part function to maintain a neurogenic progenitor pool. Furthermore, Lfng ⁺ cells also generate a population of cells in the migratory mass that appear to be ensheathing glial precursors, indicating potential multipotency in these progenitors. The Notch ligand Dll4 is expressed by basal OE cells that are interspersed with Notch1 ⁺ progenitors during later OE neurogenesis. In contrast, mice deficient in Dll1 exhibit a smaller OE and a loss of Hes5 expression, indicating an earlier function in olfactory progenitor cell development. Taken together, these results further support a role for Notch signaling in the regulation of olfactory neurogenesis and cell diversity.     

Entwicklung der Zähne

Dental development takes place in stages over a long period of time. From the 6ths embryonal week, when the dental lamina develops, tooth number and shape are formed, followed by the production of dental hard tissues. Genetic dental developmental defects are not rare. Mostly these defects affect the tooth number, predominantly resulting in a decrease tooth number (hypodontia) which can occur isolated or as a finding in genetic syndromes such as Rieger syndrome, Witkop syndrome or several ectodermal dysplasias. Genetic defects of dental hard tissues are less frequent, different types of isolated enamel defects (amelogenesis imperfecta) are known. Dentinogenesis imperfecta or other dentinal defects are either caused by different mutations of the DSPP gene or a part of osteogenesis imperfecta.     

Regulation of expression of sulfoglucuronyl carbohydrate (HNK-1), Amphoterin and RAGE in retinoic acid-differentiated P19 embryonal carcinoma cells

HNK-1 antibody reactive sulfoglucuronyl carbohydrate (SGC) and SSEA-1 antibody reactive Lewis X (Lex) epitope are expressed on several glycolipids, glycoproteins, and proteoglycans of the nervous system and have been implicated in cell-cell recognition, neurite outgrowth, and/or neuronal migration during development. Interaction of SGC with its binding protein Amphoterin and interaction of Amphoterin with a cell-signaling molecule, receptor for advance glycation end product (RAGE) have been suggested to regulate neurite outgrowth and neuronal migration. The regulation of expression of SGC, Lex, Amphoterin, and RAGE was studied in embryonal carcinoma P19 cells after treatment with retinoic acid (RA). The untreated proliferating P19 cells strongly expressed the Lex epitope, which was mostly due to Lex-glycoproteins. P19 cells, when differentiated into neuron-like cells by RA, did not express the Lex epitope, but expressed increasing levels of SGC, with time in culture. Quantitative biochemical analyses showed that in the P19 cells after RA treatment, the amount of SGC-glycoproteins increased at a significantly higher level than sulfoglucuronyl glycolipid-1 (SGGL-1). The increase in the levels of SGGL-1 was due to 16-fold upregulation in the activity of lactosylceramide: N-acetylglucosaminyl-transferase (Lc3 synthase), which synthesizes the key intermediate lactotriosylceramide (Lc3Cer), for lacto- and neolacto-glycolipids. The large increase in the activity of Lc3 synthase appeared to regulate the levels of other neolacto glycolipids, such as Lc3Cer, nLc4Cer, nLc6Cer, disialosyl-nLc4Cer (LD1), and Lex-glycolipids. Strong upregulation of glucuronyl-transferase and modest twofold enhancement in the activity of the glucuronyl-sulfotransferase, which catalyze the final steps in the SGC synthesis, also would account for the large increase in the synthesis SGC-glycoproteins. RA also upregulated the synthesis of Amphoterin and RAGE in P19 cells. SGC, RAGE, and Amphoterin were co-localized in the RA-differentiated neurons. The initiation of neurite outgrowth along with co-ordinated upregulation of Amphoterin, RAGE, SGC-glycoproteins, and SGGLs in RA-treated P19 cells support the hypothesis that these molecules are involved in the neuronal process formation.     

Das Marfan-Syndrom und verwandte monogene Krankheiten der Aorta

Marfan syndrome (MFS) is an autosomal dominant, pleiotropic disease of the connective tissue with a prevalence of about 1 in 5000 persons. MFS is characterized by manifestations in the cardiovascular system, eye, skeleton, lung, skin, and dura mater that show a high degree of intra- and interfamilial variability. Many manifestations develop during or shortly before puberty; severe complications rarely occur before adulthood. Many patients with MFS display a so-called marfanoid habitus with tall stature, dolichostenomelia (long, narrow extremities), dolichocephaly (disproportionately long and narrow head), as well as other skeletal abnormalities such as scoliosis and pes planus. Scoliosis occurs in approximately 60% of those affected, pectus deformities in up to two thirds. Ectopia lentis is seen in many patients with MFS and is almost always bilateral. MFS is characterized by a high risk for complications such as severe scoliosis or pectus deformities, spontaneous pneumothorax, retinal detachment, or glaucoma secondary to lens luxation. The most severe complications occur in the cardiovascular system, including in particular acute dissection of the ascending aorta, which generally follows a long period of progressive aortic dilatation. Before the introduction of modern treatment modalities, the average life expectancy of persons with MFS was estimated to be 32 years. Today, with medical care in multidisciplinary centers, an average life expectancy of over 60 years can be achieved. This article offers a review of established and novel concepts for the diagnosis and treatment of MFS and other hereditary diseases of the aorta.     

Klinik und Genetik des familiären Darmkrebses

Familial clustering of colorectal cancer (CRC) and early disease onset are indicators of an inherited tumour syndrome. Monogenic dispositions account for 3–5% of all CRC cases and are subdivided into hereditary non-polyposis colorectal cancer (HNPCC/Lynch syndrome) and various gastrointestinal polyposis syndromes. Many of these syndromes are characterised by a broad spectrum of extracolonic tumours. Early detection and accurate classification are essential in providing effective surveillance and treatment. Initial diagnosis is based on endoscopic and histological findings as well as on the presence of extracolonic manifestations and family history. Molecular genetic examination is important for the differential diagnosis, evaluation of recurrence risk, and predictive testing of asymptomatic at risk individuals; it is performed according to largely standardised algorithms. Diagnostic difficulties are common among the hamartomatous polyposes due to their broad phenotypic overlap and frequent uncertainties in histological evaluation, as well as among patients with few adenomas. Risk-adapted surveillance guidelines have been established for HNPCC and for the more frequently observed polyposis syndromes. Beyond established tumour syndromes, familial clustering of CRC (which is often of late onset) or the occurrence of few adenomas is likely to be based upon a multifactorial (complex) etiology. Although identification of the underlying genetic risk factors and biological pathways is still in the early stages, rapid progress is being made due to methodical developments such as genome-wide association studies and CNV analysis.     

Mitochondriale Erkrankungen

As outlined in other articles of this issue mitochondrial medicine is a complex area in clinical genetics. Due to the wide variability of clinical presentation in both pediatric and adult patients there are frequent constellations of symptoms that may suggest an underlying mitochondrial disorder. This is a challenge in genetic counseling because basically all patterns of inheritance have to be taken into account??including maternal transmission??but a straightforward genetic testing to confirm or exclude the suggested diagnosis is hampered by the immense genetic heterogeneity of the mitochondrial disease spectrum. This article focuses on a diagnostic strategy and specific aspects of genetic counseling in mitochondrial disorders.     

Botanische Gärten in der Zeit des Kolonialismus. Auf der Jagd nach dem “Grünen Gold”

Plant Transfer and Botanical Gardens in Colonial Times A constant of economic history is the need of natural resources – in the past often of vegetable origin and available only from the countries of natural distribution. These countries often tried to protect their interests against the traders or users by declaring monopoles. Between these both poles botanic gardens acted very successfully and by far not according to modern ethic standards. Results of their activities were the transcontinental movements of plants and the initiation of new agricultural based industries. These should be exemplified by the British botanical gardens and species as tea shrub, rubber tree, and cinchona tree.     

Verlust des Sensibilitäts- und Schmerzempfindens

The sensory nervous system detects pressure, touch, stretching, heat, and cold and translates these stimuli into action potentials. To protect the body from tissue damage acute pain is felt when a stimulus gains a critical intensity. The combination of impaired nociception and autonomic dysfunction is the hallmark of hereditary sensory and autonomic neuropathies (HSAN). Sensory loss in HSAN patients results in ulcerations of hands and feet and may necessitate amputations. Congenital onset of HSAN leads to self-mutilating behavior in affected children. Degeneration of motor neurons can complicate the disease. HSAN is divided into five groups according to clinical symptoms. So far, nine genes have been identified as causative for the disorder. The present article reviews the clinical, genetic, and pathophysiological aspects of HSAN.