SER-1, a Caenorhabditis elegans 5-HT2-like receptor, and a multi-PDZ domain containing protein (MPZ-1) interact in vulval muscle to facilitate serotonin-stimulated egg-laying

Hong Xiao; Vera M. Hapiak; Katherine A. Smith; Li Lin; Robert J. Hobson; John Plenefisch; Richard Komuniecki

doi:10.1016/j.ydbio.2006.06.044

RSU-1 Maintains Integrity of Caenorhabditis elegans Vulval Muscles by Regulating α-Actinin

G3 Genes|Genome|Genetics ◽

10.1534/g3.120.401185 ◽

2020 ◽

Vol 10 (7) ◽

pp. 2507-2517

Author(s):

Xinyan Wang ◽

Shuai Huang ◽

Cunni Zheng ◽

Wei Ge ◽

Chuanyue Wu ◽

...

Keyword(s):

Caenorhabditis Elegans ◽

Molecular Mechanisms ◽

Genetic Interaction ◽

Body Movement ◽

Egg Laying ◽

Shape Distortion ◽

Actin Bundle ◽

Actin Bundles ◽

Link Type ◽

Vulval Muscle

Egg-laying behavior in Caenorhabditis elegans is a well-known model for investigating fundamental cellular processes. In egg-laying, muscle contraction is the relaxation of the vulval muscle to extrude eggs from the vulva. Unlike skeletal muscle, vulval muscle lacks visible striations of the sarcomere. Therefore, vulval muscle must counteract the mechanical stress, caused by egg extrusion and body movement, from inducing cell-shape distortion by maintaining its cytoskeletal integrity. However, the underlying mechanisms that regulate the cellular integrity in vulval muscles remain unclear. Here, we demonstrate that C. elegans egg-laying requires proper vulval muscle 1 (vm1), in which the actin bundle organization of vm1 muscles is regulated by Ras suppressor protein 1 (RSU-1). In the loss of RSU-1, as well as RasLET-60 overactivation, blister-like membrane protrusions and disorganized actin bundles were observed in the vm1 muscles. Moreover, RasLET-60 depletion diminished the defected actin-bundles in rsu-1 mutant. These results reveal the genetic interaction of RSU-1 and RasLET-60in vivo. In addition, our results further demonstrated that the fifth to seventh leucine-rich region of RSU-1 is required to promote actin-bundling protein, α-actinin, for actin bundle stabilization in the vm1 muscles. This expands our understanding of the molecular mechanisms of actin bundle organization in a specialized smooth muscle.

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Homeostatic feedback modulates the development of two-state patterned activity in a model serotonin motor circuit in Caenorhabditis elegans

10.1101/202507 ◽

2017 ◽

Author(s):

Bhavya Ravi ◽

Jessica Garcia ◽

Kevin M. Collins

Keyword(s):

Caenorhabditis Elegans ◽

Muscle Activity ◽

Egg Laying ◽

Burst Firing ◽

Neuron Activity ◽

Motor Circuit ◽

Adult Behavior ◽

C Elegans ◽

Vulval Muscle ◽

Circuit Development

AbstractNeuron activity accompanies synapse formation and maintenance, but how early circuit activity contributes to behavior development is not well understood. Here, we use the Caenorhabditis elegans egg-laying motor circuit as a model to understand how coordinated cell and circuit activity develops and drives a robust two-state behavior in adults. Using calcium imaging in behaving animals, we find the serotonergic Hermaphrodite Specific Neurons (HSNs) and vulval muscles show rhythmic calcium transients in L4 larvae before eggs are produced. HSN activity in L4 is tonic and lacks the alternating burst-firing/quiescent pattern seen in egg-laying adults. Vulval muscle activity in L4 is initially uncoordinated but becomes synchronous as the anterior and posterior muscle arms meet at HSN synaptic release sites. However, coordinated muscle activity does not require presynaptic HSN input. Using reversible silencing experiments, we show that neuronal and vulval muscle activity in L4 is not required for the onset of adult behavior. Instead, the accumulation of eggs in the adult uterus renders the muscles sensitive to HSN input. Sterilization or acute electrical silencing of the vulval muscles inhibits presynaptic HSN activity, and reversal of muscle silencing triggers a homeostatic increase in HSN activity and egg release that maintains ~12-15 eggs in the uterus. Feedback of egg accumulation depends upon the vulval muscle postsynaptic terminus, suggesting a retrograde signal sustains HSN synaptic activity and egg release. Our results show that egg-laying behavior in C. elegans is driven by a homeostat that scales serotonin motor neuron activity in response to postsynaptic muscle feedback.Significance StatementThe functional importance of early, spontaneous neuron activity in synapse and circuit development is not well understood. Here we show that in the nematode C. elegans, the serotonergic Hermaphrodite Specific Neurons (HSNs) and postsynaptic vulval muscles show activity during circuit development, well before the onset of adult behavior. Surprisingly, early activity is not required for circuit development or the onset of adult behavior, and the circuit remains unable to drive egg laying until fertilized embryos are deposited into the uterus. Egg accumulation potentiates vulval muscle excitability, but ultimately acts to promote burst firing in the presynaptic HSNs during which eggs are laid. Our results suggest that mechanosensory feedback acts at three distinct steps to initiate, sustain, and terminate C. elegans egg-laying circuit activity and behavior.

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Muscle and nerve-specific regulation of a novel NK-2 class homeodomain factor in Caenorhabditis elegans

Development ◽

10.1242/dev.125.3.421 ◽

1998 ◽

Vol 125 (3) ◽

pp. 421-429 ◽

Cited By ~ 9

Author(s):

B.D. Harfe ◽

A. Fire

Keyword(s):

Caenorhabditis Elegans ◽

Motor Neurons ◽

Homeobox Gene ◽

Cell Types ◽

Egg Laying ◽

Cis Acting ◽

C Elegans ◽

E Box ◽

Vulval Muscle ◽

Specific Regulation

We have identified a new Caenorhabditis elegans NK-2 class homeobox gene, designated ceh-24. Distinct cis-acting elements generate a complex neuronal and mesodermal expression pattern. A promoter-proximal enhancer mediates expression in a single pharyngeal muscle, the donut-shaped m8 cell at the posterior end of the pharynx. A second mesodermal enhancer is active in a set of eight nonstriated vulval muscles used in egg laying. Activation in the egg laying muscles requires an ‘NdE-box’ consensus motif (CATATG) which is related to, but distinct from, the standard E-box motif bound by the MyoD family of transcriptional activators. Ectodermal expression of ceh-24 is limited to a subset of sublateral motor neurons in the head of the animal; this activity requires a cis-acting activator element that is distinct from the control elements for pharyngeal and vulval muscle expression. Activation of ceh-24 in each of the three cell types coincides with the onset of differentiation. Using a set of transposon-induced null mutations, we show that ceh-24 is not essential for the formation of any of these cells. Although ceh-24 mutants have no evident defects under laboratory conditions, the pattern of ceh-24 activity is apparently important for Rhabditid nematodes: the related species C. briggsae contains a close homologue of C. elegans ceh-24 including a highly conserved and functionally equivalent set of cis-acting control signals.

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Effect of a Neuropeptide Gene on Behavioral States in Caenorhabditis elegans Egg-Laying

Genetics ◽

10.1093/genetics/154.3.1181 ◽

2000 ◽

Vol 154 (3) ◽

pp. 1181-1192 ◽

Cited By ~ 2

Author(s):

Laura E Waggoner ◽

Laura Anne Hardaker ◽

Steven Golik ◽

William R Schafer

Keyword(s):

Caenorhabditis Elegans ◽

Active Phase ◽

Egg Laying ◽

Sensory Cues ◽

Nematode Caenorhabditis Elegans ◽

Inactive State ◽

Recessive Mutations ◽

Inactive Phase ◽

Behavioral States ◽

Stimulation Of

Abstract Egg-laying behavior in the nematode Caenorhabditis elegans involves fluctuation between alternative behavioral states: an inactive state, during which eggs are retained in the uterus, and an active state, during which eggs are laid in bursts. We have found that the flp-1 gene, which encodes a group of structurally related neuropeptides, functions specifically to promote the switch from the inactive to the active egg-laying state. Recessive mutations in flp-1 caused a significant increase in the duration of the inactive phase, yet egg-laying within the active phase was normal. This pattern resembled that previously observed in mutants defective in the biosynthesis of serotonin, a neuromodulator implicated in induction of the active phase. Although flp-1 mutants were sensitive to stimulation of egg-laying by serotonin, the magnitude of their serotonin response was abnormally low. Thus, the flp-1-encoded peptides and serotonin function most likely function in concert to facilitate the onset of the active egg-laying phase. Interestingly, we observed that flp-1 is necessary for animals to down-regulate their rate of egg-laying in the absence of food. Because flp-1 is known to be expressed in interneurons that are postsynaptic to a variety of chemosensory cells, the FLP-1 peptides may function to regulate the activity of the egg-laying circuitry in response to sensory cues.

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Neuronal membrane glycoprotein (nmgp‐1) gene deficiency affects chemosensation‐related behaviors, dauer exit and egg‐laying in Caenorhabditis elegans

Journal of Neurochemistry ◽

10.1111/jnc.15543 ◽

2021 ◽

Author(s):

Eliana M. Fernández ◽

Yamila B. Cutraro ◽

Jessica Adams ◽

Melisa C. Monteleone ◽

Kiley Hughes ◽

...

Keyword(s):

Caenorhabditis Elegans ◽

Egg Laying ◽

Neuronal Membrane ◽

Membrane Glycoprotein ◽

Gene Deficiency

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Screening for Presenilin Inhibitors Using the Free-Living Nematode, Caenorhabditis elegans

CrossRef Listing of Deleted DOIs ◽

10.1177/1087057103261038 ◽

2004 ◽

Vol 9 (2) ◽

pp. 147-152 ◽

Cited By ~ 19

Author(s):

Brenda R. Ellerbrock ◽

Eileen M. Coscarelli ◽

Mark E. Gurney ◽

Timothy G. Geary

Keyword(s):

Caenorhabditis Elegans ◽

High Throughput Screening ◽

Screening Method ◽

Genetic System ◽

Body Cavity ◽

Egg Laying ◽

The Body ◽

Loss Of Function ◽

C Elegans ◽

Automated Method

Caenorhabditis elegans contains 3 homologs of presenilin genes that are associated with Alzheimer s disease. Loss-of-function mutations in C. elegans genes cause a defect in egg laying. In humans, loss of presenilin-1 (PS1) function reduces amyloid-beta peptide processing from the amyloid protein precursor. Worms were screened for compounds that block egg laying, phenocopying presenilin loss of function. To accommodate even relatively high throughput screening, a semi-automated method to quantify egg laying was devised by measuring the chitinase released into the culture medium. Chitinase is released by hatching eggs, but little is shed into the medium from the body cavity of a hermaphrodite with an egg laying deficient ( egl) phenotype. Assay validation involved measuring chitinase release from wild-type C. elegans (N2 strain), sel-12 presenilin loss-of-function mutants, and 2 strains of C. elegans with mutations in the egl-36K+ channel gene. Failure to find specific presenilin inhibitors in this collection likely reflects the small number of compounds tested, rather than a flaw in screening strategy. Absent defined biochemical pathways for presenilin, this screening method, which takes advantage of the genetic system available in C. elegans and its historical use for anthelminthic screening, permits an entry into mechanism-based discovery of drugs for Alzheimer s disease. ( Journal of Biomolecular Screening 2004:147-152)

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The terminal differentiation factor LIN-29 is required for proper vulval morphogenesis and egg laying in Caenorhabditis elegans

Development ◽

10.1242/dev.124.21.4333 ◽

1997 ◽

Vol 124 (21) ◽

pp. 4333-4342 ◽

Cited By ~ 2

Author(s):

J.C. Bettinger ◽

S. Euling ◽

A.E. Rougvie

Keyword(s):

Caenorhabditis Elegans ◽

Terminal Differentiation ◽

Egg Laying ◽

Small Subset ◽

Wild Type ◽

Vulval Development ◽

Genetic Mosaics ◽

Hypodermal Cell ◽

Heterochronic Gene ◽

Final Molt

Caenorhabditis elegans vulval development culminates during exit from the L4-to-adult molt with the formation of an opening through the adult hypodermis and cuticle that is used for egg laying and mating. Vulva formation requires the heterochronic gene lin-29, which triggers hypodermal cell terminal differentiation during the final molt. lin-29 mutants are unable to lay eggs or mate because no vulval opening forms; instead, a protrusion forms at the site of the vulva. We demonstrate through analysis of genetic mosaics that lin-29 is absolutely required in a small subset of lateral hypodermal seam cells, adjacent to the vulva, for wild-type vulva formation and egg laying. However, lin-29 function is not strictly limited to the lateral hypodermis. First, LIN-29 accumulates in many non-hypodermal cells with known roles in vulva formation or egg laying. Second, animals homozygous for one lin-29 allele, ga94, have the vulval defect and cannot lay eggs, despite having a terminally differentiated adult lateral hypodermis. Finally, vulval morphogenesis and egg laying requires lin-29 activity within the EMS lineage, a lineage that does not generate hypodermal cells.

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The mammalian homologue of the Caenorhabditis elegans polarity protein PAR-6 is a binding partner for the Rho GTPases Cdc42 and Rac1

Journal of Cell Science ◽

10.1242/jcs.113.18.3267 ◽

2000 ◽

Vol 113 (18) ◽

pp. 3267-3275 ◽

Cited By ~ 15

Author(s):

A. Johansson ◽

M. Driessens ◽

P. Aspenstrom

Keyword(s):

Caenorhabditis Elegans ◽

Cell Polarity ◽

Hybrid System ◽

Mdck Cells ◽

Pdz Domain ◽

Yeast Two Hybrid ◽

C Elegans ◽

Yeast Two Hybrid System ◽

Mammalian Homologue ◽

Two Hybrid

A mammalian homologue of the PDZ domain containing Caenorhabditis elegans protein PAR-6 was found in a yeast two-hybrid system screen as binding to the Rho family member Cdc42. PAR-6 contains a PDZ domain and in C. elegans it has been shown to be crucial for the asymmetric cleavage and establishment of cell polarity during the first cell divisions in the growing embryo. Mammalian PAR-6 interacted with Cdc42 and Rac1 both in the yeast two-hybrid system and in in vitro binding assays. Co-immunoprecipitation experiments, employing transiently transfected Cos-1 cells, further confirmed that Cdc42 and Rac1 are physiological binding partners for PAR-6. We found that, in epithelial Madin-Darby canine kidney cells (MDCK), endogenous PAR-6 was present in the tight junctions, as judged from its co-localisation with the tight junction protein ZO-1, however, PAR-6 was also detected in the cell nucleus. Stimulation of MDCK cells with scatter factor/hepatocyte growth factor induced a loss of PAR-6 from the areas of cell-cell contacts in conformity with their progressive breakdown. In C. elegans PAR-6 co-localises with PAR-3 and has been suggested to form a direct complex. In agreement with earlier studies, mammalian PAR-3 was found to be present in tight junctions of MDCK cells but, in contrast to PAR-6, the protein could not be detected in the nucleus. Furthermore, co-immunoprecipitation experiments, employing Cos-1 cells, demonstrated that mammalian PAR-6 and PAR-3 formed a direct complex. These findings, together with the reported roles of PAR-6 and PAR-3 in C. elegans, suggest that Cdc42 and Rac1 and PAR-6/PAR-3 are involved in the establishment of cell polarity in epithelial cells.

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A normally attractive cell interaction is repulsive in two C. elegans mesodermal cell migration mutants

Development ◽

10.1242/dev.113.3.797 ◽

1991 ◽

Vol 113 (3) ◽

pp. 797-803 ◽

Cited By ~ 4

Author(s):

M.J. Stern ◽

H.R. Horvitz

Keyword(s):

Cell Migration ◽

Caenorhabditis Elegans ◽

Premature Termination ◽

Cell Interaction ◽

Egg Laying ◽

Wild Type ◽

Mesodermal Cell ◽

C Elegans ◽

Somatic Gonad ◽

Sex Myoblasts

In wild-type Caenorhabditis elegans hermaphrodites, two bilaterally symmetric sex myoblasts (SMs) migrate anteriorly to flank the precise center of the gonad, where they divide to generate the muscles required for egg laying (J. E. Sulston and H. R. Horvitz (1977) Devl Biol. 56, 110–156). Although this migration is largely independent of the gonad, a signal from the gonad attracts the SMs to their precise final positions (J. H. Thomas, M. J. Stern and H. R. Horvitz (1990) Cell 62, 1041–1052). Here we show that mutations in either of two genes, egl-15 and egl-17, cause the premature termination of the migrations of the SMs. This incomplete migration is caused by the repulsion of the SMs by the same cells in the somatic gonad that are the source of the attractive signal in wild-type animals.

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Caenorhabditis elegans twist plays an essential role in non-striated muscle development

Development ◽

10.1242/dev.127.10.2041 ◽

2000 ◽

Vol 127 (10) ◽

pp. 2041-2051 ◽

Cited By ~ 2

Author(s):

A.K. Corsi ◽

S.A. Kostas ◽

A. Fire ◽

M. Krause

Keyword(s):

Caenorhabditis Elegans ◽

Essential Role ◽

Muscle Development ◽

Target Genes ◽

Striated Muscle ◽

Egg Laying ◽

Bhlh Transcription Factor ◽

Striated Muscles ◽

Downstream Target ◽

Mesodermal Development

The basic helix-loop-helix (bHLH) transcription factor Twist plays a role in mesodermal development in both invertebrates and vertebrates. In an effort to understand the role of the unique Caenorhabditis elegans Twist homolog, hlh-8, we analyzed mesodermal development in animals with a deletion in the hlh-8 locus. This deletion was predicted to represent a null allele because the HLH domain is missing and the reading frame for the protein is disrupted. Animals lacking CeTwist function were constipated and egg-laying defective. Both of these defects were rescued in transgenic mutant animals expressing wild-type hlh-8. Observing a series of mesoderm-specific markers allowed us to characterize the loss of hlh-8 function more thoroughly. Our results demonstrate that CeTwist performs an essential role in the proper development of a subset of mesodermal tissues in C. elegans. We found that CeTwist was required for the formation of three out of the four non-striated enteric muscles born in the embryo. In contrast, CeTwist was not required for the formation of the embryonically derived striated muscles. Most of the post-embryonic mesoderm develops from a single lineage. CeTwist was necessary for appropriate patterning in this lineage and was required for expression of two downstream target genes, but was not required for the expression of myosin, a marker of differentiation. Our results suggest that mesodermal patterning by Twist is an evolutionarily conserved function.

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