Inducible Deletion of YAP and TAZ in Adult Mouse Smooth Muscle Causes Rapid and Lethal Colonic Pseudo-Obstruction.

BACKGROUND & AIMS: YAP (Yap1) and TAZ (Wwtr1) are transcriptional co-activators and downstream effectors of the Hippo pathway, which play crucial roles in organ size control and cancer pathogenesis. Genetic deletion of YAP/TAZ has shown their critical importance for embryonic development of the heart, vasculature, and gastrointestinal mesenchyme. The aim of this study was to determine the functional role of YAP/TAZ in adult smooth muscle cells in vivo. METHODS: Because YAP and TAZ are mutually redundant, we used YAP/TAZ double-floxed mice crossed with mice that express tamoxifen-inducible CreERT2 recombinase driven by the smooth muscle-specific myosin heavy chain promoter. RESULTS: Double-knockout of YAP/TAZ in adult smooth muscle causes lethality within 2 weeks, mainly owing to colonic pseudo-obstruction, characterized by severe distension and fecal impaction. RNA sequencing in colon and urinary bladder showed that smooth muscle markers and muscarinic receptors were down-regulated in the YAP/TAZ knockout. The same transcripts also correlated with YAP/TAZ in the human colon. Myograph experiments showed reduced contractility to depolarization by potassium chloride and a nearly abolished muscarinic contraction and spontaneous activity in colon rings of YAP/TAZ knockout. CONCLUSIONS: YAP and TAZ in smooth muscle are guardians of colonic contractility and control expression of contractile proteins and muscarinic receptors. The knockout model has features of human chronic intestinal pseudo-obstruction and may be useful for studying this disease.

Pharmacogenomics and tailored polypharmacy: an 80-year-old lady with rosuvastatin-associated rhabdomyolysis and maprotiline-related Ogilvie's syndrome
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What is known and objectives: Multiple adverse drug reactions (ADRs) are expected, and thus should be prevented in the elderly comorbid patient on polypharmacy. Rosuvastatin is commonly prescribed for the treatment and prevention of atherosclerotic diseases, and in rare cases, is associated with rhabdomyolysis. Maprotiline is a tetracyclic antidepressant, infrequently used in the United States, but seemingly more broadly in European countries. Acute colonic pseudo-obstruction (Ogilvie's syndrome) caused by maprotiline has thus far, to our knowledge, not yet been described in the literature. CASE SUMMARY: We present a unique case of synchronous rhabdomyolysis and Ogilvie's syndrome in an 80-year-old lung cancer survivor following a recent ischemic stroke for which she was prescribed clopidogrel and rosuvastatin for secondary prevention, and maprotiline for post-stroke, new-onset insomnia and anxiety. The ADRs resolved on removal of the offending agents and initiation of conservative treatment. Retrospective pharmacogenetic testing of the patient's drug-metabolizing enzymes and transporters was performed to guide further management and prevent future potential drug interactions and ADRs. What is novel and conclusions: This is an interesting, albeit unfortunate, complex case that depicts the risk of rare adverse effects to medications and their potential relationship to pharmacogenetics. The impact of anticholinergic side effects of antidepressants on gastrointestinal motility, risk of myopathies with statins, increased susceptibility to ADRs caused by drug-drug interactions, and the utility of pharmacogenomic testing are discussed. The question whether commercially available pharmacogenomic tools are relevant for everyday use to direct patient care and reduce harmful drug-drug interactions is addressed and warrants further research.
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A Novel Mutation in Nucleoporin 35 Causes Murine Degenerative Colonic Smooth Muscle Myopathy.

Chronic intestinal pseudo-obstruction (CIPO) is a rare but life-threatening disease characterized by severe intestinal dysmotility. Histopathologic studies in CIPO patients have identified several different mechanisms that appear to be involved in the dysmotility, including defects in neurons, smooth muscle, or interstitial cells of Cajal. Currently there are few mouse models of the various forms of CIPO. We generated a mouse with a point mutation in the RNA recognition motif of the Nup35 gene, which encodes a component of the nuclear pore complex. Nup35 mutants developed a severe megacolon and exhibited a reduced lifespan. Histopathologic examination revealed a degenerative myopathy that developed after birth and specifically affected smooth muscle in the colon; smooth muscle in the small bowel and the bladder were not affected. Furthermore, no defects were found in enteric neurons or interstitial cells of Cajal. Nup35 mice are likely to be a valuable model for the subtype of CIPO characterized by degenerative myopathy. Our study also raises the possibility that Nup35 polymorphisms could contribute to some cases of CIPO.

The RNA-binding protein RBPMS2 regulates development of gastrointestinal smooth muscle.

BACKGROUND & AIMS: Gastrointestinal development requires regulated differentiation of visceral smooth muscle cells (SMCs) and their contractile activities; alterations in these processes might lead to gastrointestinal neuromuscular disorders. Gastrointestinal SMC development and remodeling involves post-transcriptional modification of messenger RNA. We investigated the function of the RNA-binding protein for multiple splicing 2 (RBPMS2) during normal development of visceral smooth muscle in chicken and expression of its transcript in human pathophysiological conditions. METHODS: We used avian replication-competent retroviral misexpression approaches to analyze the function of RBPMS2 in vivo and in primary cultures of chicken SMCs. We analyzed levels of RBPMS2 transcripts in colon samples from pediatric patients with Hirschsprung's disease and patients with chronic pseudo obstruction syndrome (CIPO) with megacystis. RESULTS: RBPMS2 was expressed strongly during the early stage of visceral SMC development and quickly down-regulated in differentiated and mature SMCs. Misexpression of RBPMS2 in differentiated visceral SMCs induced their dedifferentiation and reduced their contractility by up-regulating expression of Noggin, which reduced activity of bone morphogenetic protein. Visceral smooth muscles from pediatric patients with CIPO expressed high levels of RBPMS2 transcripts, compared with smooth muscle from patients without this disorder. CONCLUSIONS: Expression of RBPMS2 is present in visceral SMC precursors. Sustained expression of RBPMS2 inhibits the expression of markers of SMC differentiation by inhibiting bone morphogenetic protein activity, and stimulates SMC proliferation. RBPMS2 transcripts are up-regulated in patients with CIPO; alterations in RBPMS2 function might be involved in digestive motility disorders, particularly those characterized by the presence of muscular lesions (visceral myopathies).