Generalized chronic itch induced by small-fibre neuropathy: clinical profile and proposed diagnostic criteria.

BACKGROUND: Small-fibre neuropathy (SFN) is a known cause for pain, however, it may be also associated with chronic itch. The clinical profile of chronic itch due to SFN is poorly defined and accordingly under-diagnosed in clinical care. OBJECTIVES: To establish the clinical profile of patients with SFN and to propose diagnostic criteria for this patient population. METHODS: Clinical data from patients diagnosed with SFN [chronic generalized itch and reduced intraepidermal nerve fibre density (IENFD)] were analysed retrospectively. RESULTS: A total of 142 patients (60 females, median age: 62.5 years) were included. Patients reported daily, moderate to severe itch intensity scores occurring mostly in attacks (62.5%). Only 11 patients experienced exclusively itch, while the remaining patients (92%) reported pruralgia (itch along with painful sensations). Burning (50%), a sensation like needle pricks (46%) and tingling (45%) were the sensory symptoms reported by most patients. Cold or ice application led to an alleviation of the symptoms. The IENFD did not correlate with itch intensity; however, patients with a severely reduced IENFD (<30% of the normative cut-off value) reported more frequently sharp, spiky and drilling sensations compared to the remaining patients. The quality of life was moderately impaired and correlated with itch intensity, whereas anxiety and depression scores were low. CONCLUSIONS: Onset of pruralgia on normal appearing skin, occurrence in attacks and symptomatic alleviation with cold/ice application should alert physicians for a possible neuropathic SFN-related origin of itch. A reduced IENFD can confirm the diagnosis of SFN.

Neurokinin 1 receptor antagonists exhibit peripheral effects in prurigo nodularis including reduced ERK1/2 activation.

BACKGROUND: Aprepitant is a neurokinin 1 receptor (NK1R) antagonist used for its antipruritic properties in dermatoses and systemic diseases. The mode of action is still unclear. A peripheral effect is assumed as aprepitant shows efficacy in inflammatory skin diseases including prurigo nodularis (PN). OBJECTIVES: To investigate the peripheral effects of NK1R antagonism in PN and cell culture models. METHODS: Subjects with PN received an aprepitant treatment. Clinical, morphological and immunohistochemical changes were investigated in skin biopsies before and after treatment. Expression of NK1R was analysed by immunohistochemistry and for downstream pathways ((p)ERK1/2) by Western blotting in PN patients and matched healthy volunteers. Effects of NK1R blocking were analysed in cell cultures of primary keratinocytes by Western blotting for (p)ERK1/2 and by qPCR for NK1R, interleukin (IL)-1beta, IL-6, IL-8 and TNFalpha. RESULTS: Aprepitant treatment showed significant reduction in pruritus intensity (P < 0.05) in PN and relevant immunohistochemical changes (down: CD5, CD25, up: CD79a, IL4). NK1R expression was higher in keratinocytes of PN patients compared to healthy controls. After treatment, epidermal NK1R expression increased while expression and activation of ERK1/2 decreased. In vitro, receptor up-regulation and reduced expression and activation of ERK1/2 were confirmed and reduced IL-expression shown when blocking NK1R. CONCLUSION: Our data confirm that NK1R antagonists such as aprepitant exhibit effects in the skin. Epidermal receptor expression, epidermal inflammatory ILs, ERK1/2 MAPK signalling and cutaneous inflammatory infiltrate were targets of NK1R antagonism. This may explain partly the antipruritic effect of NK1R antagonists next to its role in the central nervous system.

[New findings regarding the neurobiology of pruritus]. / Aktuelles zur Neurobiologie von Pruritus.

Chronic pruritus may arise from different conditions, including dermatological, systemic, neurologic, psychiatric, and psychosomatic diseases, leading to a substantial decrease in the quality of life of affected patients. The neurobiological mechanisms involved in chronic pruritus are not yet fully understood. However, in recent years important achievements have been made in this regard. This article aims to provide an overview of the current understanding of these mechanisms. The complex network of neurons, keratinocytes, inflammatory cells, cytokines, and neurotrophic factors which play a role in the development and maintenance of chronic pruritus are highlighted, as well as the pruritogens involved in pruritic diseases in humans. Additionally, the importance of neuropathy and scratch-induced changes for the pathophysiology of chronic pruritus are discussed. The new findings on the neurobiological mechanisms underlying chronic pruritus have already led to the development of novel therapies, e. g., monoclonal antibodies against specific interleukins, which are important for pruritus transmission. A deeper understanding of the neurobiological mechanisms is necessary in order to develop specifically targeted therapeutic options and thus provide better care for affected patients.

Application of an 8% capsaicin patch normalizes epidermal TRPV1 expression but not the decreased intraepidermal nerve fibre density in patients with brachioradial pruritus.

BACKGROUND: Topical capsaicin shows efficacy in the treatment of brachioradial pruritus (BRP); however, its mechanisms of action remain unclear. OBJECTIVE: The effect of capsaicin on the epidermis (i.e. peripheral expression of non-neuronal sensory receptors on keratinocytes, morphological changes in innervation) is still unknown. We aimed to investigate the effect of topical capsaicin on keratinocyte expression of TRP channels and on the intraepidermal nerve fibre density (IENFD) in patients with BRP. METHODS: Thirty-one patients with BRP received an 8% capsaicin patch. Biopsies in lesional and non-lesional skin were taken to assess epidermal morphology, keratinocyte expression of TRP channels and IENFD before and 3 weeks after treatment. RESULTS: Treatment with the capsaicin patch led to a significant decrease in itch and paresthetic symptoms (P < 0.05). Keratinocyte morphology is unaltered after capsaicin therapy. Reduced keratinocyte expression of TRPV1 in lesional skin (P = 0.009; n = 9) normalized 3 weeks after treatment (P = 0.016; n = 10), but not the IENFD, which remained reduced in lesional epidermis. CONCLUSION: The normalization of the decreased TRPV1 expression may account for the effectiveness of topical capsaicin, which does not reconstitute the reduced IENFD, arguing for a role of epidermal TRPV1 in the maintenance of BRP.

[Different coexisting genotypes in the breast cancer cell line MDA-MB-468]. / Unterschiedliche koexistierende Genotypen in der Brustkrebszelllinie MDA-MB-468.

Intratumor genetic heterogeneity, a well-known characteristic of numerous cancers, often confounds a precise diagnosis and leads to therapy resistance. This study deals with such chromosomal variability, which may be due to an inherent genetic instability affecting heterogeneity and clonal effects. Subpopulations of the breast cancer cell line MDA-MB-468 were isolated according to epidermal growth factor receptor (EGFR) expression by FACS. Whole genome profiling (CGH; mapping arrays) and determination of egfr gene amplification (fluorescence in situ hybridisation, FISH; qPCR) were done directly after sorting or after several passages of cell culture. Subpopulations differed in the amplification of the egfr-locus 7p11-14 showing egfr gene amplification rates of up to 60-fold in high-level expressing populations and less than 2-fold in low-level expressing populations. However, after several passages the original low-level cells showed a new amplification of the egfr gene, which was as heterogeneous as the original amplification detected in MDA-MB-468. Additional, spontaneously expressed fragile sites could be shown in FISH analyses which may affect cell culture heterogeneity. Understanding the precise chromosomal process would clarify mechanisms in vivo and improve both diagnosis and therapy of corresponding cancers.

Allelic imbalances of the egfr gene as key events in breast cancer progression--the concept of committed progenitor cells.

The introduction of concepts proposing multiple cellular subgroups in the normal female breast leads to the hypothesis that distinct cellular phenotypes in the female breast give rise to different subtypes of breast carcinomas e.g. expressing ER, HER2 and EGFR differentially. Therefore, origin of breast carcinoma types may be based on the formation of a cancer prone field in which the committed progenitor cells pass mutations to their progenies, glandular as well as myoepithelial cells. The existence of such field within the human breast was inferred from the results on primary breast cancer obtained by PCR-based microsatellite analysis of allelic imbalance (AI) of the EGF receptor gene. Here, normal breast tissue shows egfr AI adjacent to breast cancer tissue also harboring egfr gene AI. The therapeutic implications of such a model are fundamental, as tumors may display different phenotypes which arise from transformation of different progenitor cells as well as from transformation of more differentiated progenies within a cancer prone field. Thereby they may show up with different clinical courses of the disease, higher rates of metastases and responses to therapy. In this review, we discuss this mechanism focusing on the EGF receptor as an example for regulators of progenitor cell growth in many tissues. Phylloides tumors serve as a putative model for embryonic differentiation stage ruled by EGFR signaling and give insights into the tumor-host-interaction. The inhibition of the EGF receptor by specific monoclonal antibodies (e.g. Erbitux) will give an answer in as far EGFR-signaling is decisive for the development of an invasive breast cancer. For this purpose new models have been inaugurated which vary in the EGF receptor gene dosage and protein expression. Moreover, we discuss the EGF receptor as a target for the treatment of pre-malignant lesions with a high risk for malignant growth, e.g. DCIS, which certainly will be detected more frequently by mammography screening programs soon.

Molecular cytogenetic investigations of synchronous bilateral breast cancer.

BACKGROUND: Bilaterality in breast cancer is a rare event and together with an early onset of disease points towards inheritance of the disease. However, most cases seem to occur sporadically, either in a synchronous or metachronous manner. METHODS: Thirty two invasive carcinomas and one in situ carcinoma from 16 patients with synchronous, bilateral breast cancer were investigated by means of comparative genomic hybridisation (CGH) and polymerase chain reaction based multiplex microsatellite analysis. The results were analysed conventionally and were also subjected to a biomathematical cluster analysis. RESULTS: On average, bilateral breast cancer cases showed a low number of genetic alterations, a low frequency of genetic amplifications, and a high rate of chromosomal 16q losses. A distinct, characteristic genetic alteration associated with bilateral breast disease could not be found. Although two tumour pairs appeared to be related using biomathematical processing for microsatellite analysis, this result was reproduced by CGH data processing in one patient only. CONCLUSIONS: Most synchronous, bilateral breast cancer cases seem to represent independent tumours rather than metastatic events. Nevertheless, the possibility of a specific susceptibility remains.

Continuous wine making by delignified cellulosic materials supported biocatalyst. An attractive process for industrial applications.

The continuous making of wine by a delignified cellulosic (DC) material-supported biocatalyst is reported. It was prepared by immobilizing the alcohol resistant strain AXAZ-1 on DC material. The product was found suitable for the continuous process in industrial applications. The operational stability was maintained for 2 mo with monitoring the ethanol concentration, wine, and alcohol productivities as well as the stability of oBe density at the outlet. Wine productivity was three- to sixfold higher than obtained by natural fermentation, alcohol concentrations of the wine was in the range of 9.3-11.2% v/v and low volatile acidities of 0.15-0.36 g acetic acid/L were obtained. The effect of total acidity and flow rate of must were also examined. To demonstrate that the operational stability of the bioreactor is due to DC material that promotes the fermentation, and it takes place at even higher ethanol levels, an analogous system of kissiris supported biocatalyst was studied. Likewise, the tolerance in the alcohol concentration, as compared with free cells, were studied by their stability of the activity in the repeated batch fermentation of must.