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Giant muscle proteins (e.g., titin, nebulin, and obscurin) play a seminal role in muscle elasticity, stretch response, and sarcomeric organization. Each giant protein consists of multiple tandem structural domains, usually arranged in a modular fashion spanning 500 kDa to 4 MDa. Although many of the domains are similar in structure, subtle differences create a unique function of each domain. Recent high and low resolution structural and dynamic studies now suggest more nuanced overall protein structures than previously realized. These findings show that atomic structure, interactions between tandem domains, and intrasarcomeric environment all influence the shape, motion, and therefore function of giant proteins. In this article we will review the current understanding of titin, obscurin, and nebulin structure, from the atomic level through the molecular level.

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Novel role of the nociceptin system as a regulator of glutamate transporter expression in developing astrocytes

Meyer

Paisley

Mohamed

et al. 2017

Glia

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Our previous results showed that oligodendrocyte development is regulated by both nociceptin and its G-protein coupled receptor, the nociceptin/orphanin FQ receptor (NOR). The present in vitro and in vivo findings show that nociceptin plays a crucial conserved role regulating the levels of the glutamate/aspartate transporter GLAST/EAAT1 in both human and rodent brain astrocytes. This nociceptin-mediated response takes place during a critical developmental window that coincides with the early stages of astrocyte maturation. GLAST/EAAT1 upregulation by nociceptin is mediated by NOR and the downstream participation of a complex signaling cascade that involves the interaction of several kinase systems, including PI-3K/AKT, mTOR and JAK. Because GLAST is the main glutamate transporter during brain maturation, these novel findings suggest that nociceptin plays a crucial role in regulating the function of early astrocytes and their capacity to support glutamate homeostasis in the developing brain.

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Potential Neurodevelopmental Effects of Pediatric Intensive Care Sedation and Analgesia: Repetitive Benzodiazepine and Opioid Exposure Alters Expression of Glial and Synaptic Proteins in Juvenile Rats

O'Meara

Ferguson

Zven

et al. 2020

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This guidance represents the Food and Drug Administration's (FDA's) current thinking on this topic. It does not create or confer any rights for or on any person and does not operate to bind FDA or the public. You can use an alternative approach if the approach satisfies the requirements of the applicable statutes and regulations. If you want to discuss an alternative approach, contact the FDA staff responsible for implementing this guidance. If you cannot identify the appropriate FDA staff, call the appropriate number listed on the title page of this guidance. I.

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Endogenous opioid peptides and brain development: Endomorphin‐1 and Nociceptin play a sex‐specific role in the control of oligodendrocyte maturation and brain myelination

Mohamed

Paisley

Meyer

et al. 2020

Glia

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The generation of fully functional oligodendrocytes, the myelinating cells of the central nervous system, is preceded by a complex maturational process. We previously showed that the timing of oligodendrocyte differentiation and rat brain myelination were altered by perinatal exposure to buprenorphine and methadone, opioid analogs used for the management of pregnant addicts. Those observations suggested the involvement of the μ-opioid receptor (MOR) and the nociceptin/orphanin FQ receptor (NOR). However, it remained to be determined if these receptors and their endogenous ligands could indeed control the timing of myelination under normal physiological conditions of brain development. We now found that the endogenous MOR ligand endomorphin-1 (EM-1) exerts a striking stimulatory action on cellular and morphological maturation of rat pre-oligodendrocytes, but unexpectedly, these effects appear to be restricted to the cells from the female pups. Critically, this stimulation is abolished by coincubation with the endogenous NOR ligand nociceptin. Furthermore, NOR antagonist treatment of 9-day-old female pups results in accelerated brain myelination.Interestingly, the lack of sex-dependent differences in developmental brain levels of EM-1 and nociceptin, or oligodendroglial expression of MOR and NOR, suggests that the observed sex-specific responses may be highly dependent on important intrinsic differences between the male and female oligodendrocytes. The discovery of a significant effect of EM-1 and nociceptin in the developing female oligodendrocytes and brain myelination, underscores the need for further studies investigating brain sexrelated differences and their implications in opioid use and abuse, pain control, and susceptibility and remyelinating capacity in demyelinating disease as multiple sclerosis. K E Y W O R D S endomorphin-1, myelination, nociceptin, nociceptin receptor, oligodendrocytes, sexual dimorphism, μ-opioid receptor

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The Giant Cytoskeletal Protein Obscurin acts as a Variable Force Resistor

Wright

Caldwell

Meyer

2016

Biophysical Journal

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Tetrahydrocannabinol (THC) cartridge ingestion

Meyer¹,

Burjonrappa²

2020

Journal of Pediatric Surgery Case Reports

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Low Resolution Structure of Ig Domains 58 and 59 of Obscurin using Small Angle X-Ray Scattering

Meyer

Wright

2013

Biophysical Journal

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Biological membrane channels and pore-forming proteins display a level of sophistication in managing molecular scale transport that is typically unmatched by inorganic analogs, and efforts to develop nanopores that approach the transport efficiency of biological molecules often run into fabrication or synthetic difficulties. A different approach is exploiting nanomaterial scaffolds that provide near-atomic level of control over the structure and surface properties of these structures. Carbon nanotubes provide an especially interesting system for such studies due to their inherently smooth hydrophobic pore walls that support extremely high transport rates, which are comparable to biological channels. We describe the preparation of nanotube-based membrane nanopores, their assembly into biological membranes, and single-channel measurements of molecular transport in these assemblies.

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Logan C. Meyer

Deregulated Ca ²⁺ cycling underlies the development of arrhythmia and heart disease due to mutant obscurin

Structure of giant muscle proteins

Novel role of the nociceptin system as a regulator of glutamate transporter expression in developing astrocytes

Potential Neurodevelopmental Effects of Pediatric Intensive Care Sedation and Analgesia: Repetitive Benzodiazepine and Opioid Exposure Alters Expression of Glial and Synaptic Proteins in Juvenile Rats

Endogenous opioid peptides and brain development: Endomorphin‐1 and Nociceptin play a sex‐specific role in the control of oligodendrocyte maturation and brain myelination

The Giant Cytoskeletal Protein Obscurin acts as a Variable Force Resistor

Tetrahydrocannabinol (THC) cartridge ingestion

Low Resolution Structure of Ig Domains 58 and 59 of Obscurin using Small Angle X-Ray Scattering

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Logan C. Meyer

Deregulated Ca 2+ cycling underlies the development of arrhythmia and heart disease due to mutant obscurin

Structure of giant muscle proteins

Novel role of the nociceptin system as a regulator of glutamate transporter expression in developing astrocytes

Potential Neurodevelopmental Effects of Pediatric Intensive Care Sedation and Analgesia: Repetitive Benzodiazepine and Opioid Exposure Alters Expression of Glial and Synaptic Proteins in Juvenile Rats

Endogenous opioid peptides and brain development: Endomorphin‐1 and Nociceptin play a sex‐specific role in the control of oligodendrocyte maturation and brain myelination

The Giant Cytoskeletal Protein Obscurin acts as a Variable Force Resistor

Tetrahydrocannabinol (THC) cartridge ingestion

Low Resolution Structure of Ig Domains 58 and 59 of Obscurin using Small Angle X-Ray Scattering

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Product

Resources

About

Deregulated Ca ²⁺ cycling underlies the development of arrhythmia and heart disease due to mutant obscurin