Envolvimento das miosinas na trans-infecção de HIV-1 por células dendríticas / Involvement of myosins in HIV-1 trans-infection by dendritic cells

Souza, Taís Aparecida Matozo de

31 January 2019

A infecção por HIV-1 leva a uma séria imunodeficiência causada principalmente pela depleção de linfócitos T auxiliadores, a principal célula-alvo do vírus. Além dos linfócitos T CD4, o HIV-1 também pode interagir e infectar macrófagos e células dendríticas (DCs). As DCs são resistentes à infecção pelo HIV-1, mas podem internalizar vírions em compartimentos e transferi-los para linfócitos T CD4&#43, em um processo chamado trans-infecção. Para promover sua infecção, o HIV-1 subverte o citoesqueleto da actina da célula hospedeira em várias etapas de seu ciclo. Em DCs o citoesqueleto também é essencial para internalização do HIV-1 e formação dos compartimentos. Miosinas são proteínas motoras que interagem com filamentos de actina e estão envolvidas em diversos processos celulares, incluindo migração, transporte de moléculas, endocitose e reciclagem de componentes de lipid rafts. Apesar de existirem mais de 40 tipos de miosinas em humanos, apenas a miosina 2a foi estudada no contexto da trans-infecção. Por isso, nosso objetivo nesse trabalho foi estudar o papel das miosinas 1c e 1e na maturação de células dendríticas derivadas de monócitos (MDDCs) e na internalização de HIV-1 por estas células. Confirmamos por Real Time PCR a expressão de 10 miosinas em MDDCs de doadores saudáveis, depois verificamos que há regulação negativa da expressão do gene da miosina (myo1c) em MDDCs de pacientes HIV&#43. Analisamos a ativação das células em resposta ao lipopolissacarídeo (LPS) por meio da expressão de CD86 e HLA-DR em MDDCs silenciadas para myo1c e 1e. Não houve diferença na expressão dos marcadores de ativação em células silenciadas para miosina 1e (myo1e) em relação ao controle. No entanto, na maioria dos doadores testados, o silenciamento da myo1c interferiu com o aumento de expressão desses marcadores, indicando que a myo1c possa ter um papel na ativação celular por LPS. Ademais, a localização subcelular do HIV-1 em MDDCs silenciadas para myo1c e ativadas com LPS ficou mais próxima ao fenótipo de células imaturas. Contudo, não houve diferença na quantidade HIV-1 internalizado por MDDCs silenciadas para as miosinas 1c e 1e ou tratadas com um inibidor específico de miosinas do tipo 1. Estes resultados sugerem que a myo1c pode estar envolvida na ativação de células dendríticas e consequentemente alterar o mecanismo de internalização do HIV-1 por MDDCs. / Infection by human immunodeficiency virus (HIV) leads to severe immunodeficiency caused by depletion of T helper cells, the main targets of the virus. Besides T CD4&#43 cells, HIV-1 can infect and interact with other immune cells, including dendritic cells and macrophages. Dendritic cells are resistant to HIV infection, however, they can bind and internalize HIV in compartments and then transfer the virus to CD4&#43 T cells in a process called trans-infection. To promote infection, HIV-1 subverts actin cytoskeleton of host cell at several points of its cycle. In DCs, cytoskeleton is also essential to HIV-1 internalization and compartment assembly. Myosins are motor proteins that can interact with actin and take part in several cellular processes, including migration, molecular trafficking, endocytosis and lipid raft recycling. Even though there are about 40 myosin types, only myosin 2a has been investigated in trans-infection. Thus, our aim was to evaluate the role of myosins 1c and 1e in monocyte derived dendritic cell (MDDC) activation and HIV-1 internalization. We have validated the expression of 10 myosins in MDDCs by real-time PCR, and observed a down regulation of myosin 1c gene in HIV&#43 patients. We have evaluated cell activation in response to lipopolysaccharide (LPS) through CD86 and HLA-DR expression in myosin 1c and 1e knocked down MDDCs. There was no change in expression of activation markers in myosin 1e knocked down MDDCs compared with control cells. However, in most donors, myosin 1c knock down impaired the increase of activation markers following LPS treatment, suggesting that myosin 1c may play a role in cell activation by LPS. In addition, subcellular location of HIV-1 in MDDCs knocked down for myosin 1c and activated with LPS, was similar to immature cell phenotype. Nevertheless, we have not observed changes in the amount of HIV-1 internalized by myosin 1c or 1e knocked down MDDCs or in MDDCs treated with myosin I inhibitor. These data suggest that myosin 1c may play a role in MDDC activation and therefore alter the mechanism of HIV-1 internalization by MDDCs.

Células Dendríticas

Dendritic cell. HIV-1

HIV-1

Miosina

Myosin

Trans-infecção

Trans-infection

Dynamique des réseaux d'actine d'architecture contrôlée.

Reymann, Anne-Cécile

11 July 2011

Mon travail de thèse fut de développer différents projets en vue de mieux comprendre la dynamique et l'organisation des réseaux d'actine, ainsi que les mécanismes moléculaires à l'origine de la production de force grâce à différents systèmes reconstitués biomimétiques. Dans un premier temps, je me suis intéressée à l'étude de l'organisation spatiotemporelle des réseaux dynamiques d'actine et de ses protéines associées durant la propulsion de particules recouvertes de promoteurs de nucléation des filaments d'actine (Achard et al, Current Biology, 2010 et Reymann et al, accepté à MBoC). J'ai notamment suivi en temps réel l'incorporation de deux régulateurs de l'actine (Capping protein, protéine de coiffe et ADF/cofilin, protéine de fragmentation) et montré que leurs actions conjuguées assurent un contrôle biochimique de l'assemblage d'un réseau complexe d'actine, mais gouvernent également les propriétés mécaniques de ce réseau. Par ailleurs, afin de mieux caractériser les propriétés mécaniques de ces réseaux d'actine en expansion, j'ai développé un système biomimétique novateur utilisant la procédure de micropatrons ou "micropatterning" qui permet un contrôle spatial reproductible des sites de nucléation d'actine. Cela m'a permis de montrer comment des barrières géométriques, semblables à celles trouvées dans les cellules, peuvent influencer la formation dynamique de réseaux organisés d'actine et ainsi contrôler la localisation de la production de forces. (Reymann et al, Nature Materials, 2010). De plus, l'incorporation de moteurs moléculaires dans ce système versatile, nous a permis d'étudier la contraction induite par des myosines. En particulier, j'ai pu montrer que les myosines VI HMM interagissent de manière sélective avec différentes architectures d'actine (organisation parallèle ou antiparallèle, réseau enchevêtré), aboutissant à un processus en trois phases: tension, puis déformation des réseaux d'actine fortement couplée à un désassemblage massif des filaments. Aussi, ce phénomène de désassemblage massif induit par la myosine est intimement dépendant de l'architecture du réseau d'actine et pourrait, de ce fait, jouer un rôle essentiel dans la régulation spatiale des zones d'expansion et de contraction du cytosquelette in vivo.

actin

myosin

contractility

micropatterning

cell motility

Reverse genetic and cell biological approaches to the study of developmental functions of Class XI myosin in Arabidopsis thaliana

Park, Eunsook

01 March 2010

Myosin proteins function as molecular motors that drive the ATP-dependent movement of cellular components along actin filaments. Vascular plants encode two different types of myosin, referred to as class VIII and class XI. Although class XI myosins have been suggested to function in organelle movement and cytoplasmic streaming, little is known about their cellular function in detail. The Arabidopsis genome encodes 13 class XI myosin genes. The reasons for the relatively large number of myosin XI isoforms present within a single plant species are unknown. To investigate the function of these gene products in the cell, we determined the spatial and temporal gene expression patterns by constructing promoter-reporter plants. Myosin genes are expressed in a variety of tissues with substantial overlap between family members. To study the biological function more intensively, homozygous T-DNA insertion lines were isolated for all 13 genes. Interestingly, five mutants showed phenotypes related to root hairs. mya2, xi-b, and xi-k showed shorter root hairs than in wild type while xi-h and mya1 produced a higher density of root hairs on the epidermis. MYA1 and XI-K are the most similar isoforms among the 13 myosins and their double mutant showed an additive phenotype with extremely short root hairs suggesting that these two myosins have partially redundant functions. Interestingly organelle movements, especially those of peroxisomes, were reduced in mya1 xi-k. Tip growth is the key growth mechanism in root hairs and pollen tubes. Many kinds of vesicles are trafficking toward (or backward from) the apical dome of root hairs to supply membrane and cell wall material as well as energy for growing tips. These movements along the shank of the hair occurred with velocities around 2 to 3 μm/s for Arabidopsis thaliana. In xi-k mutants, root hairs grew more slowly and terminated sooner than in wild type. Interestingly, this reduction of growth rate was correlated with a fluctuation of YFP-RAbA4b accumulation at the tip of growing root hairs. Other markers, including PI4P lipid and ER, as well as calcium and actin dynamics did not show significant differences. A YFP-XI-K construct driven by its native promoter could rescue the mutant phenotype and revealed accumulation of this myosin in the tip of growing root hairs. The distribution of YFP-XI-K in the root hair tip partially overlapped with CFP-RHD4-labeled vesicles at the subapex and YFP-RabA4b vesicles at the apex of root hairs, suggesting that myosin XI-K might be involved in the accumulation of unidentified vesicles in the tip of growing root hairs. Characterization of two mutants that showed ectopic root hair growth in the epidermis, resulting in a higher density of root hairs than wild type, mya1 and xi-h, were initiated with two analyses. At first, staining pattern of promoter-reporter constructs of three key transcription factors, WER, EGL3, and GL2 were observed in mya1. Although variation in individual samples was too large to conclude, GL2 staining patterns in mya1 occasionally were unorganized. Increasing sample population and detail study is necessary. Secondly, effects of phosphate deficiency were observed with the mya1 and the xi-h in series of phosphate concentrations ranging from 1μM to 300μM. The xi-h mutant showed insensitivity on root hair production upon phosphate deficiency, suggesting a potential function of XI-H in the response to phosphate deficiency. Confirmation of these results and further study of the MYA1 and the XI-H is essential. In summary, this study established a systematic approach to investigate the biological function of class XI myosins in plant development and significantly increases our understanding of the function of XI-K myosin in root hair tip growth.

Myosin

root hairs

tip growth

Arabidopsis

Cell Biology

Developmental Biology

Molecular Biology

Molecular genetics

Extra- and intrafusal muscle fibre type compositions of the human masseter at young age. : In perspective of growth and functional maturation of the jaw-face motor system.

Österlund, Catharina

January 2011

Muscles control body posture and movement by extrafusal and intrafusal (muscle spindle) fibres. The purpose of this thesis was to provide insight into the muscular basis for human jaw function at young age. Extrafusal and intrafusal fibres in the young masseter, and for comparison young biceps, were examined for composition of fibre types and myosin heavy chain (MyHC) isoforms by means of morphological, enzyme-histochemical, biochemical and immuno-histochemical techniques. For evaluation of plasticity during life span the data for young muscles were compared with previous reported data for adult and elderly muscles. The results showed significant differences in extrafusal fibre types and MyHC expression between young masseter and young biceps and between young masseter and masseter in adults and elderly. Compared with young biceps, young masseter was more intricate in composition of extrafusal MyHC expression. Muscle spindles were larger and more frequent in the masseter than in the biceps. Masseter and biceps muscle spindles showed fundamental similarities but also marked differences in MyHC expression. The results suggest that the young masseter is specialized in fibre types already at young age and shows a unique fibre type growth pattern. Whereas masseter extrafusal fibres display marked plasticity in fibre types and MyHC isoforms during life span muscle spindles/intrafusal fibres are morphologically mature already at young age and precede extrafusal fibres in growth and maturation. Results showed similarities in intrafusal MyHC expression between young masseter and biceps, but also differences implying muscle specific proprioceptive control. Differences in fibre types and MyHC expression between young masseter and young biceps extrafusal fibres are proposed to reflect diverse evolutionary and developmental origins and accord with the masseter and biceps being separate allotypes of muscle.

jaw

limb

human

muscle

morphology

fibre type

myosin heavy chain

muscle spindle

Morphology

Morfologi

Development of method for myosin- and actin-measurements in musclefibers

Corpeno, Rebeca

January 2008

The purpose of this study was to gain more knowledge about the deleterious effects of decreased muscle protein concentration on skeletal muscle function, by measuring the concentrations of myosin and actin in single pig muscle fibres. The pigs were earlier used in an experimental animal model to study the early stages of acute quadriplegic myopathy (AQM), a disease that is found in mechanically ventilated intensive care unit patients. Percutaneous biopsies were taken from these pigs and where now used in this study. Even though the method used was accurately tested and theoretically working, certain problems arose. These problems were unexpected and caused problems to the study. The method used to measure the concentration of myosin and actin, an ELISA, gave no logical results. The reason could not be found and because of the time limit of this project no results from the AQM-pigs were gained. The efforts to make the method work is described and discussed.

Protein concentration

muscleprotein

myosin heavy chain (MHC)

acute quadriplegic myopathy (AQM)

ELISA

Celluar and Molecular Mechanisms Underlying Regulation of Skeletal Muscle Contraction in Health and Disease

Li, Mingxin

January 2010

Morphological changes, genetic modifications, and cell functional alterations are not always parallel. Therefore, assessment of skeletal muscle function is an integral part of the etiological approach. The general objective of this thesis was to look into the cellular and molecular events occurring in skeletal muscle contraction in healthy and diseased condition, using a single fiber preparation and a single fiber in vitro motility assay, in an attempt to approach the underlying mechanisms from different physiological angles. In a body size related muscle contractility study, scaling of actin filament sliding speed and its temperature sensitivity has been investigated in mammals covering a 5,500-fold difference in body mass. A profound temperature dependence of actin filament sliding speed over myosin head was demonstrated irrespective of MyHC isoform expression and species. However, the expected body size related scaling within orthologus myosin isoforms between species failed to be maintained at any temperature over 5,500-fold range in body mass, with the larger species frequently having faster in vitro motility speeds than the smaller species. This suggest that apart from the MyHC iso-form expression, other factors such as thin filament proteins and myofilament lattice spacing, may contribute to the scaling related regulation of skeletal muscle contractility. A study of a novel R133W β-tropomyosin mutation on regulation of skeletal muscle contraction in the skinned single fiber prepration and single fiber in vitro motility assay suggested that the mutation induced alteration in myosin-actin kinetics causing a reduced number of myosin molecules in the strong actin binding state, resulting in overall muscle weakness in the absence of muscle wasting. A study on a type IIa MyHC isoform missense mutation at the motor protein level demonstrated a significant negative effect on the function of the IIa MyHC isoform while other myosin isoforms had normal function. This provides evidence that the pathogenesis of the MyHC IIa E706K myopathy involves defective function of the mutated myosin as well as alterations in the structural integrity of all muscle irrespective of MyHC isoform expression.

Scaling

myosin heavy chain

in vitro motility assay

myopathy

Clinical neurophysiology

Klinisk neurofysiologi

Progression of Symptoms and Differences in the Response of Different Skeletal Muscles to the M1592V Mutation of NaV1.4 that Causes Hyperkalemic Periodic Paralysis

Khogali, Shiemaa

01 November 2012

Hyperkalemic periodic paralysis is characterized by myotonic discharges followed by paralysis. Caused by a mutation in the gene encoding for NaV1.4 channel, patients do not experience symptoms during infancy, but the onset starts between 1-10 years of age. The symptoms severity then increases with age until adolescence. A large increase in gene expression marked by an increase in oxidative capacity of muscles has also been reported in HyperKPP. It is possible that the onset of symptoms is related solely to NaV1.4 channel content/activity reaching a critical level. It is also possible that the onset of some symptoms are due to defective NaV1.4, while other symptoms and the increase in severity with age are related to changes in membrane components as a result of changes in gene expression. To test these possibilities, the progression of paralysis and changes in fiber types were followed with age in HyperKPP mice in relation to changes in NaV1.4 content and activity. Changes in fiber types (index of changes in gene expression), started after the onset of paralysis was observed, which coincided with NaV1.4 channels reaching maximum expression. Therefore, the onset of symptoms was related to defective NaV1.4 channels.

Hyperkalemic Periodic Paralysis

Channelopathies

Ion Channels

Sodium Channels

Myosin Fiber types

Muscle physiology

Exercise physiology

Estructura molecular i funció dels músculs vius

Juanhuix Gibert, Jordi

19 April 2001

El múscul és un fabulós motor orgànic que a nivell molecular és capaç de convertir energia química, provinent essencialment del menjar, en força mecànica. Al seu estudi s'hi han dedicat grans esforços des de molts camps d'investigació, l'objectiu últim dels quals és trobar la resposta a la pregunta 'd'or': Com fa força i provoca moviment el múscul?Aquesta tesi resol precisament un aspecte essencial de la pregunta: l'orientació dels caps de miosina en diferents estats musculars. Aquests caps són les proteïnes que enllacen els dos elements actius de la contracció: els filaments prims i gruixuts. El punt clau que permet respondre és el fet que el múscul presenta una estructura altament periòdica, on es pot fins i tot definir una cel·la quasicristal·logràfica. Aquesta periodicitat el fa un candidat per ser estudiat amb noves tècniques de difracció basades en la llum de sincrotró.En conseqüència, i malgrat que tractem amb mostres purament biològiques, aquesta tesi pot ser considerada com un treball clàssic de difracció de mètodes directes, l'esquema brevíssim del qual és com segueix. La mostra és el teixit muscular, que s'obté per dissecció; la tècnica experimental és la difracció de raigs X; de l'anàlisi s'extreuen unes fases i uns mòduls que generen un mapa de densitat electrònica en una dimensió; finalment, el mapa és modelat mitjançant l'orientació de l'estructura cristal·logràfica de les unitats que el componen, de manera que en trobem l'orientació en músculs vius. La metodologia anterior se segueix en dos estats musculars bàsics: en descans (múscul relaxat) i en contracció isomètrica (múscul fent força sense moviment).La tesi, doncs, està estructurada en 11 capítols que desenvolupen tot el treball que permet arribar a les conclusions finals. Els dos primers capítols estan dedicats a introduir l'estructura i fisiologia del múscul, i la teoria de difracció aplicada a la simetria que presenta, respectivament. El capítol 3 exposa el muntatge experimental i els protocols seguits en cada estat muscular estudiat, mentre que el capítol 4 presenta els resultats experimentals. En el capítol 5 s'extreu la fase del factor d'estructura mitjançant l'ajustament de diverses aproximacions teòriques a les dades en contracció isomètrica. En el capítol 6 es realitza el mateix ajustament en l'estat de descans. El mòdul del factor d'estructura en els dos estats és extret al capítol 7. Amb les dades anteriors, als capítols 8 i 9 s'extreu l'orientació dels caps de miosina en contracció isomètrica i en descans, respectivament. Al capítol 10 s'exposen breument els experiments posteriors realitzats en estats no isomètrics, és a dir, estats en què el múscul experimenta un canvi de longitud, així com el treball que ha de continuar la línia d'investigació d'aquesta tesi. Finalment, al capítol 11 s'extreuen les conclusions del treball en tots els estats musculars estudiats.Finalment, convé puntualitzar que aquest ha estat realitzat en el marc del consorci del Laboratori de Llum de Sincrotró. Això explica l'especial esment d'aquesta font de raigs X, amb la inclusió de dos annexos que n'exposen les característiques, producció i usos. Així, aquesta tesi no solament pretén tenir rellevància pel contingut original que presenta, sinó que, a més, vol servir d'exemple dels nombrosos usos de la llum de sincrotró, i animar a l'utilització d'aquesta per part dels diferents equips d'investigació d'arreu del país. / The muscle is a fabulous organic machine able to convert, at a molecular level, chemical energy coming mainly from food into mechanical force. Many efforts have been dedicated from many fields of knowledge with the single objective of finding the answer to the golden question: How can muscle produce force and movement?This thesis answers an essential aspect of the question: how the myosin heads are oriented in different muscular states. These heads are proteins that act as bridges between the two active elements of muscular contraction: the thin and thick filaments. The key point to find the answer this is the periodicity of muscle, high enough to be able to define a quasicrystallograpic structure. This periodicity allows the muscle to be studied by new diffraction techniques using synchrotron light.As a consequence, even when we are dealing with purely biological samples, this thesis can be regarded as a classic diffraction work using direct methods. The brief summary is as follows. The sample is the muscular tissue, obtained by dissection. The experimental technique is the X ray diffraction; from data analysis we extract phases and moduli from the structure factor of myosin heads. These generate an electronic density map in one dimension, which is further modelled by orientating the crystallographic structure of the myosin heads. This methodology is followed in two basic muscular states: at rest (no contraction performed) and isometric contraction (muscle making force without motion).Following this schema, the thesis is structured in 11 chapters. The first two introduce the muscle structure and physiology, as well as the diffraction theory of helical structures. Chapter 3 exposes the experimental setup and protocols followed in the different muscular states, whereas chapter 4 presents the experimental results. In chapter 5 we extract the phase of the structure factor by fitting the experimental meridional intensity with several theoretical approximations with the muscle in isometric contraction. Same work is done in chapter 6 with the rest state. The moduli of the structure factor in both states are extracted in chapter 7. Using the obtained data, in chapters 8 and 9 we finally extract the orientation of myosin heads in isometric contraction and rest, respectively. In chapter 10 we briefly expose the following experiments, done in non-isometric states, when muscle changes the length, as well as the future work to be done after this thesis. Finally, in chapter 11 we list the conclusions for every studied muscular state.As a final point, we should remark that this work has been done in the Laboratori de Llum de Sincrotró. This explains why 2 more appendixes have been included exposing the characteristics, production and use of synchrotron sources. In fact, this thesis not only pretends to extend the knowledge of muscle, but also to be an example of the many uses of synchrotron light. We hope to contribute to expand the knowledge and use of this powerful tool among the national research groups.

Myosin head

Contracció muscular

Difracció de raigs X

Ciències Experimentals

535

612

The Effects of 1-(5-Iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-7) on the Lens During Avian Accommodation In Situ

Luck, Sara

02 December 2009

A previous study in chickens revealed that myosin light chain kinase (MLCK), f actin, and myosin are found on the crystalline lens. Their polygonal arrangement at the posterior surface resembles a muscle tissue, which suggests that these proteins may have a contractile role in accommodation. The ciliary muscle in chickens is skeletal in nature and, therefore, chickens were used to test the hypothesis that contractile microfilaments play a role in accommodation. Ciliary nerve-induced accommodation was measured in the presence of an MLCK inhibitor 1-(5-Iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-7). Eyes of 6-day old white Leghorn chickens (gallus gallus domesticus) were enucleated in Tyrode’s saline solution while keeping the ciliary nerve intact. One eye was treated with ML-7 and the other eye was treated with vehicle only. Three concentrations of ML-7 were used: 1 µM, 10 µM, and 100 µM. Two experiments were carried out, one including a (3×10 min) wash and one without. Focal lengths of the vehicle- and ML-7-treated eyes were measured before, during and after accommodation. Immunoblots were used to detect the amount of phosphorylated myosin with and without the inhibitor. Focal lengths for accommodation were shorter than those at rest (p<0.001). In the wash experiment, vehicle-treated eyes had higher accommodative amplitudes compared to ML-7-treated eyes for all three dosage groups. In the no-wash experiment, only the 1 µM group demonstrated the same trend as the wash experiment. For the 10 µM and 100 µM groups, ML-7-treated eyes had higher accommodative amplitudes compared to vehicle-treated eyes. Immunoblots revealed varying amounts of inhibition within pairs of eyes as well as between birds for both experiments. Results from this experiment indicate that ML-7 was not effective at determining whether contractile microfilaments found on the lens contribute to accommodation.

crystalline lens

accommodation

myosin

ML-7

avian

contractile microfilaments

Vision Science and Biology

The Effects of 1-(5-Iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-7) on the Lens During Avian Accommodation In Situ

Luck, Sara

02 December 2009

A previous study in chickens revealed that myosin light chain kinase (MLCK), f actin, and myosin are found on the crystalline lens. Their polygonal arrangement at the posterior surface resembles a muscle tissue, which suggests that these proteins may have a contractile role in accommodation. The ciliary muscle in chickens is skeletal in nature and, therefore, chickens were used to test the hypothesis that contractile microfilaments play a role in accommodation. Ciliary nerve-induced accommodation was measured in the presence of an MLCK inhibitor 1-(5-Iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-7). Eyes of 6-day old white Leghorn chickens (gallus gallus domesticus) were enucleated in Tyrode’s saline solution while keeping the ciliary nerve intact. One eye was treated with ML-7 and the other eye was treated with vehicle only. Three concentrations of ML-7 were used: 1 µM, 10 µM, and 100 µM. Two experiments were carried out, one including a (3×10 min) wash and one without. Focal lengths of the vehicle- and ML-7-treated eyes were measured before, during and after accommodation. Immunoblots were used to detect the amount of phosphorylated myosin with and without the inhibitor. Focal lengths for accommodation were shorter than those at rest (p<0.001). In the wash experiment, vehicle-treated eyes had higher accommodative amplitudes compared to ML-7-treated eyes for all three dosage groups. In the no-wash experiment, only the 1 µM group demonstrated the same trend as the wash experiment. For the 10 µM and 100 µM groups, ML-7-treated eyes had higher accommodative amplitudes compared to vehicle-treated eyes. Immunoblots revealed varying amounts of inhibition within pairs of eyes as well as between birds for both experiments. Results from this experiment indicate that ML-7 was not effective at determining whether contractile microfilaments found on the lens contribute to accommodation.

crystalline lens

accommodation

myosin

ML-7

avian

contractile microfilaments

Vision Science and Biology