NEUROFIBROMIN, NERVE GROWTH FACTOR AND RAS: THEIR ROLES IN CONTROLLING THE EXCITABILITY OF MOUSE SENSORY NEURONS

Wang, Yue

03 January 2007

Indiana University-Purdue University Indianapolis (IUPUI) / ABSTRACT Yue Wang Neurofibromin, nerve growth factor and Ras: their roles in controlling the excitability of mouse sensory neurons Neurofibromin, the product of the Nf1 gene, is a guanosine triphosphatase activating protein (GAP) for p21ras (Ras) that accelerates the conversion of active Ras-GTP to inactive Ras-GDP. It is likely that sensory neurons with reduced levels of neurofibromin have augmented Ras-GTP activity. In a mouse model with a heterozygous mutation of the Nf1 gene (Nf1+/-), the patch-clamp recording technique is used to investigate the role of neurofibromin in controlling the state of neuronal excitability. Sensory neurons isolated from adult Nf1+/- mice generate more APs in response to a ramp of depolarizing current compared to Nf1+/+ mice. In order to elucidate whether the activation of Ras underlies this augmented excitability, sensory neurons are exposed to nerve growth factor (NGF) that activates Ras. In Nf1+/+ neurons, exposure to NGF increases the production of APs. To examine whether activation of Ras contributes to the NGF-induced sensitization in Nf1+/+ neurons, an antibody that neutralizes Ras activity is internally perfused into neurons. The NGF-mediated augmentation of excitability is suppressed by the Ras-blocking antibody in Nf1+/+ neurons, suggesting the NGF-induced sensitization in Nf1+/+ neurons depends on the activation of Ras. Surprisingly, the excitability of Nf1+/- neurons is not altered by the blocking antibody, suggesting that this enhanced excitability may depend on previous activation of downstream effectors of Ras. To determine the mechanism giving rise to augmented excitability of Nf1+/- neurons, isolated membrane currents are examined. Consistent with the enhanced excitability of Nf1+/- neurons, the peak current density of tetrodotoxin-resistant (TTX-R) and TTX-sensitive (TTX-S) sodium currents (INa) are significantly larger than in Nf1+/+ neurons. Although the voltage for half-maximal activation (V0.5) is not different, there is a significant depolarizing shift in the V0.5 for steady-state inactivation of INa in Nf1+/- neurons. In summary, these results demonstrate that the enhanced production of APs in Nf1+/- neurons results from a larger current amplitude and a depolarized voltage dependence of steady-state inactivation of INa that leads to more sodium channels being available for the subsequent firing of APs. My investigation supports the idea that regulation of channels by the Ras cascade is an important determinant of neuronal excitability. Grant D. Nicol, Ph.D, Chair

dorsal root ganglia

neurofibromin

nerve growth factor

nociceptors

potassium currents

Ras

sodium currents

tetrodotoxin

Guanosine triphosphatase

Sensory neurons

Ras oncogenes

Hearing sounds in space: A neuro-cognitive investigation on the ability to associate auditory cues with external space

Rabini, Giuseppe

09 December 2019

Sound localisation is one of the most representative function of the auditory system and, as such, it has been extensively investigated across species. Spatial hearing can be dramatically altered across the life span, yet research in humans have highlighted the remarkable capacity of the brain to adapt to changes of listening conditions, such as temporary ear plugging or long lasting hearing impairments. Although several investigations have examined accommodation to altered auditory cues (Chapter 1), a common theoretical framework seems to lack and a number of questions remain open. This limits the possibility to translate our current knowledge into concrete clinical applications for individuals who experience spatial hearing difficulties after hearing loss. The current dissertation reflects the attempt to answer specific questions regarding the process of sound localisation. The first study (Chapter 2) aimed to investigate the relation between different reference frames in spatial hearing, namely egocentric and allocentric sound representation. We studies this topic in the context of a learning paradigm, assessing to what extent localisation of single sounds in simulated monaural hearing (unilateral ear plugging) can improve following an audio-visual spatial hearing training focused on egocentric sound processing vs allocentric sound processing. An untrained group was also included in the study. We found that localisation performance in the horizontal plane improved specifically in the side ipsilateral to the ear-plug for all groups. Yet, the trained groups showed a qualitatively different change of performance after four days of multisensory ego/allocentric training compared to the untrained group, providing initial evidence of the possible role of allocentric coding in acoustic space re-learning. These results further highlight the importance of including a test-retest group in paradigms of sound localisation training. The second study (Chapter 3) focused on a specific aspect of the phenomenological experience of spatial hearing, namely the subjective confidence about the perceived sound position. We examined the relation between objective localisation accuracy and subjective certainty while participants localised sounds in two different listening conditions – binaural or simulated monaural hearing. Results showed that overall subjective certainty on sound position decreased in the altered listening condition (unilateral ear-plugging). In simulated monaural hearing, localisation accuracy and spatial confidence dissociated. For instance, there were trials in which participants were accurate, but felt uncertain, and trials in which they were less accurate but expressed higher ratings of spatial confidence on sound position. Furthermore, subjective confidence increased as a function of time within the testing block, and it was related to the spatial distribution of the perceived sound-source position. The third study (Chapter 4) exploited magnetoencephalography (MEG) to study the dynamics of the cortical network implied in active sound localisation. We implemented a novel apparatus to study sound localisation in MEG with real sounds in external space, and collected behavioural and subjective responses (i.e., accuracy and confidence, as in Study 2) during this altered listening condition. Results showed that participants were able to perceive the spatial difference between the positions of stimulation, thus proving the reliability of our novel setting for the study of spatial hearing in MEG. MEG data highlight a distributed bilateral cortical network involved in active sound localisation, which emerged shortly after stimulus presentation (100—125 ms). The network comprise the classical dorsal auditory pathway plus other cortical regions usually underestimated in previous literature – most notably, regions in the central sulcus/precentral gyrus possibly involved in head movements. Connectivity analysis revealed different patterns of neural coupling, as a function of frequency band. In particular, coherence in high gamma revealed significant connections involving the parietal cortex and the posterior superior temporal cortex. In the final chapter (Chapter 5), I summarise the main findings of the three studies, discuss their implications and outline potential future directions.

A NOVEL ROLE FOR ACTIVIN IN WOUND HEALING AND PSORIASIS: INDUCTION OF A SENSORY NEUROPEPTIDE

Cruise, Bethany Ann

09 July 2004

No description available.

Biology, Neuroscience

activin

sensory neurons

calcitonin gene-related peptide

skin wound

dorsal root ganglion

psoriasis

nerve growth factor

SPATIAL MEMORY AND NAVIGATION IN HUMANS

Han, Xue

10 1900

<p>We investigated 1) how objects come to serve as landmarks in spatial memory and more specifically how they form part of an allocentric cognitive map and 2) how humans encode multiple connected spatial environments. In both sets of experiments, participants performing a virtual driving task incidentally learned the layout of a town and locations of objects or stores in that town. Their spatial memory and recognition memory for the objects or stores were subsequently tested. To assess whether the objects were encoded allocentrically, we developed a new measurement, pointing consistency. We found that when participants had more limited experience of the environment spatial memory for objects at navigationally relevant locations was more consistent across tested viewpoints than for objects at navigationally less relevant locations. When participants’ attention was focused on the appearance of objects, the navigational relevance effect was eliminated, whereas when their attention was focused on the objects’ locations, this effect was enhanced, supporting the hypothesis that when objects are processed in the service of navigation, rather than merely being viewed as objects, they engage qualitatively distinct attentional systems and are incorporated into an allocentric spatial representation. The results were consistent with evidence from the neuroimaging literature that when objects are relevant to navigation, they not only engage the ventral “object processing stream”, but also the dorsal stream and medial temporal lobe memory system classically associated with allocentric spatial memory. Moreover, in the connected environments, our data were more consistent with the formation of local maps, regardless of whether the neighborhoods were learned together or separately. Only when all visible distinctions between neighborhoods were removed did people behave as if they formed one integrated map. These data are broadly consistent with evidence from rodent hippocampal place cell recordings in connected boxes, and with hierarchical models of spatial coding.</p> / Doctor of Philosophy (PhD)

Spatial memory

Landmarks

Attention

Dorsal versus Ventral visual stream

Local versus Global maps

Psychology

Psychology

Morphogenesis in Drosophila melanogaster : an in vitro analysis

Scarborough, Julie

January 2007

The aim of this thesis was to investigate morphogenesis in the fruit fly Drosophila melanogaster using three in vitro tissue culture systems. Primary embryonic cultures derived from Drosophila melanogaster were used to study the effect of the moulting hormone ecdysone on cells in culture. The hypothesis was that the effect of ecdysone on these primary embryonic cells would parallel events which occur during metamorphosis in vivo and therefore the primary embryonic cultures could be used as an ‘in vitro’ model system. Transgenic fly lines expressing GFP were used to visualise and identify specific cell types and it was shown that cells in primary embryonic cultures respond to ecdysone morphologically. However due to the variability of cultures it was concluded that this culture system was not suitable for use as a model system. As defined cell types were observed the development of a protocol suitable for use with the primary embryonic culture system using dsRNA in order to demonstrate RNA interference was undertaken. Although this was unsuccessful, as cells in the primary embryonic cultures appeared to be resistant to dsRNA, some technical avenues remain to be explored. The Drosophila melanogaster cell line, Clone 8+, was used to investigate cell adhesion in tissue culture. Statistical analyses were carried out and it was established that derivatives of the parent cell line, Clone 8+, showed differential adhesion and proliferation characteristics. Analysis of microarray data was carried out in order to identify genes which may be responsible for the loss of cell adhesion in Clone 8+ cell lines and the potential roles of these genes in adhesion were discussed. A gene of interest, glutactin, was identified which may be responsible for loss of cell adhesion. Antibody staining was used to establish the expression of the protein glutactin in the Clone 8+ cell lines. The expression of glutactin suggested that the Clone 8+ cell line had maintained properties of the wing disc epithelial cell-type and disruption of cell polarity was considered as a possible mechanism. It was shown that f-actin colocalised with glutactin and the role of the cytoskeleton in glutactin secretion was discussed. It was concluded that glutactin was not responsible for loss of cell adhesion in the Clone 8+ cell lines. Further analysis of the microarray data revealed potential genes that could be responsible for the loss of cell polarity in the Clone 8+ cell lines and the possibility of cellular senescence was considered. It was hypothesised that the properties of adhesion and proliferation related to their ‘in vitro’ age. In the final investigation the movement of epithelial cells in Drosophila melanogaster third instar larval imaginal discs during morphogenesis was investigated. Firstly a lumen was identified in fixed imaginal disc tissue in association with cells expressing f-actin. This result was discussed in relation to the process of dorsal closure and wound healing. Further investigations involved live imaging of the dynamic process of evagination in the imaginal wing disc using transgenic flies expressing moesin-GFP. It was concluded that the lumen was not associated with the process of wound healing and it was concluded that the lumen appeared to be the mechanism directing peripodial epithelium contraction during morphogenesis of the imaginal wing disc. Dorsal closure and the process of invagination in relation to morphogenesis of the imaginal wing disc were discussed.

Aspects spatial et temporel de l'intégration visuelle au niveau de la voie dorsale du système visuel du chat : le cortex suprasylvien latéral comme modèle

Ouellette, Brian G.

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Mouvement

Movement

Vision

Électrophysiologie

Electrophysiology

Hiérarchie corticale

Cortical hierarchy

Chat

Cat

Voie dorsale

Dorsal stream

PMLS

Latence

Latency

Lésion

Lesion

Profils spatio-temporel

Spatio-temporal profiles

Rôle de Tafa4 dans la spécification et la physiologie des nocicepteurs

Mantilleri, Annabelle

21 September 2012

La douleur est perçue par des neurones spécialisés, les nocicepteurs, dont le corps cellulaire est localisé, au niveau du tronc, dans les ganglions de la racine dorsale (DRG). Ces neurones détectent les informations sensorielles en périphérie (peau, muscles ou viscères) et les transmettent aux neurones spinaux qu'ils connectent au niveau de la corne dorsale de la moelle épinière. D'un point de vue morphologique, anatomique, physiologique, mais également moléculaire, une hétérogénéité importante de ces neurones est observée. Le but principal du laboratoire est de trouver de nouvelles molécules impliquées dans les mécanismes moléculaires qui spécifient les différentes sous-populations neuronales des DRG. Dans ce cadre, il a été possible d'identifier et valider plusieurs gènes présentant un profil d'expression très particulier et spécifiant des populations neuronales bien distinctes au sein des DRG. Parmi ces gènes, tafa4 est principalement exprimé dans des neurones non-peptidergiques de type C. Tafa4 est une petite protéine sécrétée proche des chemokines de type CC dont la fonction est jusqu'à présent inconnue, et dont l'expression dans les DRG n'a encore jamais été décrite. Au cours de ce travail, j'ai pu identifier Tafa4 comme un nouveau marqueur d'une sous-population de neurones sensoriels des DRG : les C-LTMRs (C-Low Threshold MechanoReceptor). La génération d'une lignée de souris Tafa4 KO dans laquelle le gène tafa4 a été remplacé par la protéine fluorescente Vénus, nous a permis de mettre en évidence que la population de neurones tafa4+ projette en central dans la lamina II interne de la moelle épinière et en périphérique exclusivement au niveau de la peau poilue. / The perception of pain is initiated by the detection of noxious stimuli by the peripheral endings of primary nociceptive neurons. They are a specialized group of small-diameter pseudounipolar neurons with cell bodies in the dorsal roots ganglia (DRG). They give rise to thinly myelinated (Ad-fibers) or unmyelinated (C-fibers) afferent fibers, which convey the signal from the periphery to the dorsal horn of the spinal cord. Our laboratory is interested in molecular mechanisms which underlie the specification of somatic sensory neurons and their properties. In order to find novel molecular factors involved in this process, we identified several new nociceptor subtype specific genes by microarray experiments. Among these genes, tafa4 which encodes a small secreted protein distantly related to CC chemokine with unknown function, appears to have a DRG-specific expression from early developmental stages and becomes restricted to a subset of C-fibers non-peptidergic nociceptors in adult DRG. By using transgenic mice, we show that Tafa4 neurons specifically project to the dorsal horn lamina IIi and innervate the hairy skin. They have electrophysiological signature of C-Low-threshold mechanoreceptors (C-LTMRs), a population of sensory neurons implicated in the injury-induced mechanical hyper-sensitivity as well as in the affective component of touch. Mutant mice lacking Tafa4 do not present developmental defects and specify Tafa4 population correctly. However, despite no obvious molecular changes in Tafa4 mutants, these mice display significant increase in tissue injury induced hyper-sensitivity which could be reduced by intrathecally applied Tafa4 protein.

Douleur

C-ltrm

Ganglion de la racine dorsale (DRG)

Neurones sensoriels

Tafa

Antalgique

Pain

C-ltrm

Dorsal root ganglia (DRG)

Sensory neurons

Tafa

Antalgic

Eye, hand and space representations and causal interference in bihemispheric pulvinar-parietal circuitry

Arabali, Danial

14 June 2018

No description available.

570

visually-guided eye and arm movements

goal-directed behavior

parietal cortex

dorsal pulvinar

neuronal representations

pulvinar-parietal interactions

pharmacological inactivation

Biologie (PPN619462639)

Investigação dos mecanismos de ação do Amblyomin-X sobre a angiogênese in vivo induzida pelo VEGF / Investigation of mechanisms of action of Amblyomin-X on in vivo on VEGF-induced angiogenesis

Drewes, Carine Cristiane

05 April 2011

Amblyomin-X é um inibidor de serinoprotease do tipo kunitz obtido de uma biblioteca de cDNA das glândulas salivares do carrapato Amblyomma cajannense. Dados preliminares mostraram que a injeção in vivo de Amblyomin-X reduziu a formação de massa tumoral induzida por células de melanoma B16F10 em camundongos. Com base neste dado e na ação de inibidores de serinoproteases sobre a angiogênese, este projeto foi delineado para caracterizar as ações do Amblyomin-X sobre a angiogênese in vivo e sobre funções da célula endotelial in vitro na vigência do fator de crescimento VEGF-A. Os efeitos do Amblyomin-X sobre a cinética de formação de novos vasos na rede microcirculatória in vivo foram investigados no modelo de câmara dorsal em camundongos e na membrana corioalantóica. Empregando cultura de células endoteliais de linhagem de microcirculação (t-End), foram avaliados os efeitos do Amblyomin-X sobre viabilidade e citoproteção celular (anexina e iodeto de propídio - PI), proliferação celular (incorporação do fluoróforo diacetato de carboxi-fluoresceína succinimidil éster) e ciclo celular, além da expressão das moléculas de adesão PECAM-1, ICAM-1, VCAM-1, &#946;1 e &#946;3 integrinas em ensaios de citometria de fluxo. A aderência celular em Matrigel foi quantificada por espectrofotometria, a formação de tubos foi mensurada por microscopia óptica e a expressão gênica das moléculas de adesão PECAM-1, ICAM-1 e VCAM-1 por RT-PCR. Os dados obtidos mostraram que a aplicação tópica do Amblyomin-X (100ng/10&#181;L) reduziu a formação de novos vasos no tecido subcutâneo dorsal de camundongos, quando o tratamento foi iniciado anterior ou concomitantemente, mas não posteriormente ao tratamento ao VEGF (10ng/10&#181;L) e, reduziu a formação de novos vasos na membrana corioalantóica, quando administrado concomitantemente com o VEGF (0,25ng/10&#181;L). O Amblyomin-X não alterou a viabilidade de células t-End (1000ng/mL, 72 horas); inibiu a apoptose e apoptose tardia causada por meio de cultura carenciado (100ng/mL); inibiu a proliferação (10, 100 ou 1000ng/mL de Amblyomin-X, 48 e 72 horas); induziu parada nas fases G1/G0 do ciclo celular; diminuiu a aderência e a formação de tubos das células endoteliais; não alterou a expressão basal de PECAM-1, VCAM-1, ICAM-1, &#946;1 e &#946;3 integrinas, mas reduziu a expressão de PECAM-1, VCAM-1, ICAM-1 induzida pelo VEGF-A. A redução da expressão protéica da PECAM-1 e ICAM-1 parece não ser dependente de ação do Amblyomin-X na expressão gênica, já que os níveis de RNAm não foram afetados pela ação do Amblyomin-X. Em conjunto, os dados obtidos neste trabalho mostram que o Amblyomin-X inibe a formação de novos vasos in vivo, por interferir, possivelmente, em mecanismos relacionados a sinalização da célula endotelial induzida pelo VEGF-A, em especial com a proliferação, adesão , tubulogênese e expressão de moléculas de adesão da família das imunoglobulinas. / Amblyomin-X is a type-kunitz serineprotease inhibitor obtained from a cDNA library of the Amblyomma cajannense salivary glands. Preliminary data showed that in vivo injection of the protein reduced the formation of tumor-induced B16F10 melanoma cells in mice. Based on this data and on actions of serinorpoteases inhibitors on angiogenesis, this project aimed to characterize the actions of Amblyomin-X on angiogenesis in vivo and on in vitro endothelial cells functions in the presence of the growth factor VEGF. The effects of Amblyomin-X on the in vivo formation of microcirculatory new vessels were investigated in the dorsal chamber model in mice and in the chorioallantoic membrane assay. Mice microvascular endothelial cell lineage (t-End) was employed to evaluate the effects of Amblyomin-X on cytoprotection and cell viability (Annexin-V and propidium iodide-PI), cell proliferation (incorporation of the fluorophore fluorescein diacetate carboxy-succinimidil ester), cell cycle, membrane expression of PECAM-1, ICAM-1, VCAM-1, &#946;1 and &#946;3 integrins adhesion molecules using flow cytometry. Cell adhesion was assessed in matrigel by spectrophotometry, the formation of tubes was measured by optical microscopy and adhesion molecules PECAM-1, ICAM-1 and VCAM-1 gene expression was evaluated by RT-PCR. Data obtained showed that topical application of Amblyomin-X (100ng/10&#181;L) reduced the formation of new vessels, only when Amblyomin-X treatment started before or simultaneously to VEGF-A stimulation (10ng/10&#181;L). Amblyomin-X (100ng/10&#181;L) also reduced the formation of new vessels in the chorioallantoic membrane assay, when coadministered with VEGF (0.25ng/10&#181;L). The Amblyomin-X did not alter the viability of t-End (1000ng/mL, 72 hours), inhibited apoptosis and late apoptosis caused by deprivated serum (100ng/mL), inhibited proliferation (10, 100 or 1000ng/mL, 48 and 72 hours), induced G1/G0 arrest in cell cycle phases, decreased the cell adhesion and tube formation (100ng/mL), did not alter the basal expression of PECAM-1, VCAM-1, ICAM-1, &#946;1 or &#946;3 integrin, but reduced the PECAM-1, VCAM-1, ICAM-1 induced by VEGF-A. Impaired PECAM-1 and ICAM-1 expression seems not be dependent on gene expression, as, mRNA levels were not affected by the action of Amblyomin-X. Together, the data obtained shows that the Amblyomin-X inhibits new vessel formation in vivo, by interfering, possibly, with mechanisms related to VEGF-A induced endothelial cell signaling, especially with the proliferation, adhesion, tubulogenesis and expression of adhesion molecules.

Amblyomin-X

Amblyomin-X

Angiogênese

Angiogenesis

Câmara dosal

Célula endotelial

Dorsal Chamber

Endothelial cell

Experimental toxicology

Serineprotease Kunitz-type inhibitor

Toxicologia experimental

VEGF

VEGF

Funktionelle Analyse von CAP bei der Herzlumenbildung von Drosophila melanogaster

Jammrath, Jennifer

13 January 2016

Das Dorsalgefäß von Drosophila ist ein wertvolles Modellsystem für die Untersuchung der genetischen und molekularen Mechanismen der Kardiogenese. Ein Schlüsselereignis der Kardiogenese ist die Bildung eines Herzlumens, durch das die Hämolymphe gepumpt wird, um Nährstoffe und Zellen des angeborenen Immunsystems zu zirkulieren. Ein Schwerpunkt meiner Arbeit umfasste die Identifizierung neuer Gene, die im embryonalen Dorsalgefäß von Drosophila exprimiert sind. Dafür habe ich die Expression von 101 Genen, deren Orthologe spezifisch im Herzen von Zebrafisch exprimiert sind, in Drosophila untersucht. Ich identifizierte ein Gen, das für das Cbl-assoziierte Protein (CAP) kodiert. Durch Herstellung eines anti-CAP Antikörpers konnte ich erstmals eine detaillierte Lokalisation des CAP-Proteins im Dorsalgefäß beschreiben. Interessanterweise stellte sich dabei heraus, dass CAP ähnlich wie die homologen Vertebraten Proteine embryonal an den fokalen Adhäsionskontakten der Kardioblasten und im adulten Dorsalgefäß auch an den Z-Scheiben und den Zell-Zell-Kontaktstellen der Kardiomyozyten lokalisiert ist. Des Weiteren untersuchte ich, welche Auswirkungen der Verlust der CAP Funktion auf die Herzentwicklung hat. Für die Analyse der CAP-Mutanten nutzte ich neben Immunhistochemischen Methoden auch ultrastrukturelle Analysen mittels TEM-Mikroskopie. So konnte ich zeigen, dass embryonale Dorsalgefäße von CAP-Mutanten eine fehlerhafte Anzahl sowie Anordnung der Kardioblasten und Lumendefekte aufweisen. Ein genetischer Interaktionstest untermauerte meine Vermutung, dass CAP mit dem Integrinsignalweg während der embryonalen Dorsalgefäßentwicklung interagiert. Live-Aufnahmen des pumpenden Dorsalgefäßes von Drosophila L3-Larven und Injektionstests an späten Puppen zeigten zudem, dass der Verlust der CAP Funktion auch zu starken Defekten in der Funktionalität des larvalen und adulten Dorsalgefäßes führt. / The heart of Drosophila provides a valuable model system for the examination of the genetic and molecular mechanisms that guide cardiogenesis. A key event of cardiogenesis is the formation of a heart lumen through which the hemolymph is pumped to circulate nutrients and cells of the innate immune system. A main focus of my work was the identification of new genes that are expressed in the embryonic heart of Drosophila. Therefore I studied the expression of 101 genes, whose orthologues are expressed specifically in the heart of zebrafish. I identified a gene that encodes for the Cbl-associated protein (CAP). By generating an anti-CAP antibody I could describe the localization of the CAP protein in the heart for the first time in detail. Interestingly, it turned out that CAP is located similar to the homologous vertebrate proteins at the focal adhesion contacts of cardioblasts in the embryo and at the Z-discs and the cell-cell contact sites of cardiomyocytes in the adult heart. I also examined the consequences of the loss of CAP function on heart development. For the analysis of the CAP mutants I used immunohistochemical and ultrastructural analysis by TEM microscopy. So I was able to demonstrate that embryonic hearts of CAP mutants show a defective number and arrangement of cardioblasts and lumen defects. A genetic interaction test substantiated my guess that CAP interacts with the Integrin signaling pathway during embryonic heart development. Live recordings of the pumping heart of Drosophila L3 larvae and injection tests of late pupae also showed that the loss of CAP function leads to severe defects in the functionality of the larval and adult heart.

Dorsalgefäß

Herzlumen

Cbl-assoziiertes Protein (CAP)

Integrin

dorsal vessel

heart lumen

Cbl-associated protein (CAP)

Integrin

570 Biowissenschaften, Biologie

32 Biologie

WW 7500

ddc:570