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1.
J Biomed Sci ; 30(1): 13, 2023 Feb 19.
Article in English | MEDLINE | ID: mdl-36803854

ABSTRACT

BACKGROUND: Genome-wide association studies (GWASs) have linked RRBP1 (ribosomal-binding protein 1) genetic variants to atherosclerotic cardiovascular diseases and serum lipoprotein levels. However, how RRBP1 regulates blood pressure is unknown. METHODS: To identify genetic variants associated with blood pressure, we performed a genome-wide linkage analysis with regional fine mapping in the Stanford Asia-Pacific Program for Hypertension and Insulin Resistance (SAPPHIRe) cohort. We further investigated the role of the RRBP1 gene using a transgenic mouse model and a human cell model. RESULTS: In the SAPPHIRe cohort, we discovered that genetic variants of the RRBP1 gene were associated with blood pressure variation, which was confirmed by other GWASs for blood pressure. Rrbp1- knockout (KO) mice had lower blood pressure and were more likely to die suddenly from severe hyperkalemia caused by phenotypically hyporeninemic hypoaldosteronism than wild-type controls. The survival of Rrbp1-KO mice significantly decreased under high potassium intake due to lethal hyperkalemia-induced arrhythmia and persistent hypoaldosteronism, which could be rescued by fludrocortisone. An immunohistochemical study revealed renin accumulation in the juxtaglomerular cells of Rrbp1-KO mice. In the RRBP1-knockdown Calu-6 cells, a human renin-producing cell line, transmission electron and confocal microscopy revealed that renin was primarily retained in the endoplasmic reticulum and was unable to efficiently target the Golgi apparatus for secretion. CONCLUSIONS: RRBP1 deficiency in mice caused hyporeninemic hypoaldosteronism, resulting in lower blood pressure, severe hyperkalemia, and sudden cardiac death. In juxtaglomerular cells, deficiency of RRBP1 reduced renin intracellular trafficking from ER to Golgi apparatus. RRBP1 is a brand-new regulator of blood pressure and potassium homeostasis discovered in this study.


Subject(s)
Carrier Proteins , Hyperkalemia , Hypertension , Hypoaldosteronism , Animals , Humans , Mice , Aldosterone , Aluminum Oxide , Blood Pressure , Genome-Wide Association Study , Homeostasis , Hyperkalemia/complications , Hypoaldosteronism/complications , Potassium , Renin/genetics , Carrier Proteins/genetics , Carrier Proteins/physiology
2.
Front Neurosci ; 13: 1247, 2019.
Article in English | MEDLINE | ID: mdl-31824248

ABSTRACT

Acid-sensing ion channels (ASICs) are important acid sensors involved in neural modulation in the central nervous system and pain-associated tissue acidosis in the peripheral system. Among ASIC subtypes, ASIC1b is the most selectively expressed in peripheral sensory neurons. However, the role of ASIC1b is still elusive in terms of its functions and expression profile. In this study, we probed the role of ASIC1b in acid-induced muscle pain in Asic1b-knockout (Asic1b -/-) and Asic1b-Cre transgenic (Asic1b Cre ) mice. We tested the effect of ASIC1b knockout in a mouse model of fibromyalgia induced by dual intramuscular acid injections. In this model, a unilateral acid injection to the gastrocnemius muscle induced transient bilateral hyperalgesia in wild-type (Asic1b + / +) but not Asic1b -/- mice; a second acid injection, spaced 1 or 5 days apart, to the same muscle induced chronic hyperalgesia lasting for 4 weeks in Asic1b + / + mice, but the duration of hyperalgesia was significantly shortened in Asic1b -/- mice. Mambalgin-1, an ASIC1b-containing channel inhibitor that was mixed with acid saline at the first injection, dose-dependently blocked the acid-induced transient and chronic hyperalgesia in Asic1b + / + mice. In contrast, psalmotoxin 1 (PcTx1), an ASIC1a-selective antagonist, had no effect on acid-induced transient or chronic hyperalgesia. We used whole-cell patch clamp recording to study the properties of acid-induced currents in ASIC1b-expressing dorsal root ganglia (DRG) neurons from Asic1b Cre -TdTomato reporter mice. Medium- to large-sized ASIC1b-expressing DRG neurons mainly exhibited an amiloride-sensitive ASIC-like biphasic current (I ASIC) in response to acid stimulation, whereas small- to medium-sized ASIC1b-expressing DRG neurons predominantly exhibited an amiloride-insensitive sustained current. Specifically, mambalgin-1 selectively inhibited the I ASIC in most ASIC1b-expressing DRG neurons. However, PcTx1 or APETx2 (an ASIC3-selective antagonist) had only a mild inhibitory effect on I ASIC in about half of the ASIC1b-expressing DRG neurons. In situ hybridization revealed that ASIC1b-positive DRG neurons co-expressed highly with ASIC1a and ASIC2a mRNA and partially with ASIC3 and ASIC2b. Thus, ASIC1b might form a wide variety of heteromeric channels. ASIC1b-containing heteromeric channels might be promising targets for the therapeutic treatment of acid-induced chronic muscle pain.

3.
PLoS One ; 11(2): e0148491, 2016.
Article in English | MEDLINE | ID: mdl-26915043

ABSTRACT

Cytoplasmic polyadenylation element binding protein 3 (CPEB3) is a sequence-specific RNA-binding protein that downregulates translation of multiple plasticity-related proteins (PRPs) at the glutamatergic synapses. Activity-induced synthesis of PRPs maintains long-lasting synaptic changes that are critical for memory consolidation and chronic pain manifestation. CPEB3-knockout (KO) mice show aberrant hippocampus-related plasticity and memory, so we investigated whether CPEB3 might have a role in nociception-associated plasticity. CPEB3 is widely expressed in the brain and peripheral afferent sensory neurons. CPEB3-KO mice with normal mechanosensation showed hypersensitivity to noxious heat. In the complete Freund's adjuvant (CFA)-induced inflammatory pain model, CPEB3-KO animals showed normal thermal hyperalgesia and transiently enhanced mechanical hyperalgesia. Translation of transient receptor potential vanilloid 1 (TRPV1) RNA was suppressed by CPEB3 in dorsal root ganglia (DRG), whereas CFA-induced inflammation reversed this inhibition. Moreover, CPEB3/TRPV1 double-KO mice behaved like TRPV1-KO mice, with severely impaired thermosensation and thermal hyperalgesia. An enhanced thermal response was recapitulated in non-inflamed but not inflamed conditional-KO mice, with cpeb3 gene ablated mostly but not completely, in small-diameter nociceptive DRG neurons. CPEB3-regulated translation of TRPV1 RNA may play a role in fine-tuning thermal sensitivity of nociceptors.


Subject(s)
Ganglia, Spinal/physiology , Nociceptors/physiology , RNA-Binding Proteins/metabolism , TRPV Cation Channels/genetics , Thermosensing/physiology , Animals , Female , Hyperalgesia/genetics , Hyperalgesia/physiopathology , Inflammation/physiopathology , Male , Mice , Mice, Inbred C57BL , Mice, Knockout , Models, Neurological , Neuronal Plasticity/physiology , Pain Threshold/physiology , RNA/genetics , RNA/metabolism , RNA-Binding Proteins/genetics , TRPV Cation Channels/deficiency , Up-Regulation
4.
Proc Natl Acad Sci U S A ; 107(30): 13515-9, 2010 Jul 27.
Article in English | MEDLINE | ID: mdl-20624974

ABSTRACT

The amount of neurotransmitter released from a presynaptic terminal is the product of the quantal content (number of vesicles) and the presynaptic quantal size (QSpre, amount of transmitter per vesicle). QSpre varies with synaptic use, but its regulation is poorly understood. The motor nerve terminals at the neuromuscular junction (NMJ) contain TGF-beta receptors. We present evidence that TGF-beta2 regulates QSpre at the NMJ. Application of TGF-beta2 to the rat diaphragm NMJ increased the postsynaptic response to both spontaneous and evoked release of acetylcholine, whereas antibodies to TGF-beta2 or its receptor had the converse effect. L-vesamicol and bafilomycin blocked the actions of TGF-beta2, indicating that TGF-beta2 acts by altering the extent of vesicular filling. Recordings of the postsynaptic currents from the diaphragm were consistent with TGF-beta2 having this presynaptic action and a lesser postsynaptic effect on input resistance. TGF-beta2 also decreased quantal content by an atropine-sensitive pathway, indicating that this change is secondary to cholinergic feedback on vesicular release. Consequently, the net actions of TGF-beta2 at the NMJ were to amplify the postsynaptic effects of spontaneous transmission and to diminish the number of vesicles used per evoked stimulus, without diminishing the amount of acetylcholine released.


Subject(s)
Neuromuscular Junction/drug effects , Presynaptic Terminals/drug effects , Synaptic Transmission/drug effects , Transforming Growth Factor beta2/pharmacology , Acetylcholine/metabolism , Animals , Atropine/pharmacology , Dose-Response Relationship, Drug , Evoked Potentials/drug effects , Macrolides/pharmacology , Male , Mice , Mice, Inbred C57BL , Miniature Postsynaptic Potentials/drug effects , Neuromuscular Depolarizing Agents/pharmacology , Neuromuscular Junction/metabolism , Neuromuscular Junction/physiology , Neurotransmitter Agents/metabolism , Parasympatholytics/pharmacology , Piperidines/pharmacology , Presynaptic Terminals/physiology , Rats , Receptors, Transforming Growth Factor beta/metabolism , Synaptic Transmission/physiology
5.
Eur J Neurosci ; 31(1): 29-41, 2010 Jan.
Article in English | MEDLINE | ID: mdl-20092553

ABSTRACT

Neurotrophin-3 (NT-3) is a trophic factor that is essential for the normal development and maintenance of proprioceptive sensory neurons and is widely implicated as an important modulator of synaptic function and development. We have previously found that animals lacking NT-3 have a number of structural abnormalities in peripheral nerves and skeletal muscles. Here we investigated whether haploinsufficiency-induced reduction in NT-3 resulted in impaired neuromuscular performance and synaptic function. Motor nerve terminal function was tested by monitoring the uptake/release of the fluorescent membrane dye FM1-43 by the electrophysiological examination of synaptic transmission and electron microscopic determination of synaptic vesicle density at the presynaptic active zone. We investigated skeletal muscle form and function by measuring force in response to both nerve-mediated and direct muscle stimulation and by quantification of fiber number and area from transverse sections. Synaptic transmission was not markedly different between the two groups, although the uptake and release of FM1-43 were impaired in mature NT-3-deficient mice but not in immature mice. The electron microscopic examination of mature nerve terminals showed no genotype-dependent variation in the number of synaptic vesicles near the active zone. NT-3(+/-) mice had normal soleus muscle fiber numbers but their fibers had smaller cross-sectional areas and were more densely-packed than wild-type littermates. Moreover, the muscles of adult NT-3-deficient animals were weaker than those of wild-type animals to both nerve and direct muscle stimulation. The results indicate that a reduction in NT-3 availability during development impairs motor nerve terminal maturation and synaptic vesicle recycling and leads to a reduction in muscle fiber diameter.


Subject(s)
Motor Neurons/physiology , Motor Neurons/ultrastructure , Muscle, Skeletal/cytology , Muscle, Skeletal/physiology , Neurotrophin 3/metabolism , Animals , Animals, Newborn , Genotype , Haplotypes , Heterozygote , Immunohistochemistry , Mice , Mice, Transgenic , Microscopy, Electron , Muscle Fibers, Skeletal/cytology , Muscle Fibers, Skeletal/physiology , Muscle Strength/physiology , Muscle, Skeletal/growth & development , Neuromuscular Junction/growth & development , Neuromuscular Junction/physiology , Neuromuscular Junction/ultrastructure , Neurotrophin 3/deficiency , Neurotrophin 3/genetics , Presynaptic Terminals/physiology , Presynaptic Terminals/ultrastructure , Pyridinium Compounds , Quaternary Ammonium Compounds , Synapses/physiology , Synapses/ultrastructure , Synaptic Transmission/physiology , Synaptic Vesicles/physiology , Synaptic Vesicles/ultrastructure
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