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JCI Editorials/Perspectives/Commentaries 2011
| ISSUE | PERSPECTIVES/COMMENTARIES | |
1 January 2011 Vol.121;1 |
Commentaries(1) Arsenic: a potentially useful poison for Hedgehog-driven cancers(2) Gene defects in the soma: some get it and some don’t!(3) A stimulating way to improve T cell responses to poxvirus-vectored vaccines (4) BCR-ABL kinase is dead; long live the CML stem cell (5) Chemokine antagonism in chronic hepatitis C virus infection (6) Cytokinesis failure and attenuation: new findings in Fanconi anemia |
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1 February 2011 Vol.121;2 |
Commentaries(1) The cautionary tale of side effects of chronic Notch1 inhibition(2) The perplexing case of the geranylgeranyl transferase–deficient mouse(3) Navigational error in the heart leads to premature ventricular excitation (4) Growing a tumor stroma: a role for granulin and the bone marrow (5) Nuclear receptors take center stage in Th17 cell–mediated autoimmunity |
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1 March 2011 Vol.121;3 |
Commentaries(1) Upper urinary tract pacemaker cells join the GLI club(2) Unraveling virus-induced lymphomagenesis(3)Adherent-invasive E. coli in Crohn disease: bacterial “agent provocateur”(4)RAS signaling pathway mutations and hypertrophic cardiomyopathy: getting into and out of the thick of it(5)Genetic control of hepatitis A severity and susceptibility to allergy |
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1 April 2011 Vol.121;4 |
Commentaries(1)PinX1 the tail on the chromosome(2)The adaptive stroma joining the antiangiogenic resistance front(3)Tolerogenic pDCs: spotlight on Foxo3(4)Myocarditis: a defect in central immune tolerance?(5)Niche competition and cancer metastasis to bone(6)Finding a needle in a haystack: whole genome sequencing and mutation discovery in murine models(7)Dietary nitrate, nitric oxide, and restenosis(8)Neutrophils give us a shock(9)Good COP1 or bad COP1? In vivo veritas |
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1 May 2011 Vol.121;5 |
Commentaries(1)Mommy — where do tumors come from?(2)Mitochondrial Ca2+ and ROS take center stage to orchestrate TNF-α–mediated inflammatory responses(3)MMPs in tuberculosis: granuloma creators and tissue destroyers(4)Fibulin-5: two for the price of one maintaining pelvic support |
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1 June 2011 Vol.121;6 |
Commentaries(1) The targeted podocyte(2) Spotlight on childhood blindness(3) From probiotics to therapeutics: another step forward?(4) Neuroanatomy of body weight control: lessons learned from leptin(5) Chronic lung allograft rejection and airway microvasculature: Is HIF-1 the missing link?(6) The yin, the yang, and the Angiopoietin-1 |
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1 July 2011 Vol.121;7 |
Editorial |
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1 August 2011 Vol.121;8 |
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1 September 2011 Vol.121;9 |
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1 October 2011 Vol.121;10 |
Commentaries (1)There’s a goat behind door number 3: from Monty Hall to medicine (2)Lessons in human biology from a monogenic pancreatic β cell disease (3)ApoE controls the interface linking lipids and inflammation in atherosclerosis (4)Informed reasoning: repositioning of nitisinone to treat oculocutaneous albinism (5)Viruses and human brain tumors: cytomegalovirus enters the fray |
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1 November 2011 Vol.121;11 |
Commentaries (1)A (heat) shock to the system promotes peripheral nerve regeneration (2)Do MDL-1+ cells play a broad role in acute inflammation? (3)The long and the short of aberrant ciliogenesis in Huntington disease (4)Are maternal antiplatelet antibodies a prothrombotic condition leading to miscarriage? |
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1 December 2011 Vol.121;12 |
Commentaries
Unraveling the functional implications of GWAS: how T cell protein tyrosine phosphatase drives autoimmune disease
 G enome-wide association studies (GWAS) have identified a large number of SNPs that are linked to human autoimmune diseases. However, the functional consequences of most of these genetic variations remain undefined. T cell protein tyrosine phosphatase (TCPTP, which is encoded by PTPN2) is a JAK/STAT and growth factor receptor phosphatase that has been linked to the pathogenesis of type 1 diabetes, rheumatoid arthritis, and Crohn’s disease by GWAS. In this issue of the JCI, Wiede and colleagues have generated a T cell–specific deletion of TCPTP and identified a novel role for this phosphatase as a negative regulator of TCR signaling. These data provide new insight as to how noncoding PTPN2 SNPs identified in GWAS could drive human autoimmune diseases.
A new medical therapy for Cushing disease?
M embers of the ErbB family of cell surface tyrosine kinase receptors are important targets for cancer treatment because they frequently contribute to the pathogenesis of malignancy. In this issue of the JCI, Fukuoka et al. generate data that suggest that using a tyrosine kinase inhibitor (TKI) against epidermal growth factor receptor (EGFR; also known as ErbB1) may be a novel approach for treating patients with hypercortisolemia due to pituitary corticotroph adenomas (Cushing disease). While surgical resection remains the cornerstone of treatment for individuals with such tumors, this study suggests that TKIs could perhaps be used to reduce tumor size prior to surgery or to treat recurrent disease after surgery.
The debut of a rational treatment for an inherited neuropathy?
H ereditary neuropathies are common neurological conditions characterized by progressive loss of motor and/or sensory function. There are no effective treatments. Among the many causes of hereditary neuropathies are dominant mutations in serine palmitoyltransferase, long chain base subunit 1 (SPTLC1), which cause hereditary sensory and autonomic neuropathy type 1 (HSAN1). By incorporating l-alanine in place of l-serine, the mutant HSAN1–associated serine palmitoyltransferase generates deoxysphingolipids, which are thought to be neurotoxic. In this issue of the JCI, Garofalo and colleagues report that oral l-serine reverses the accumulation of deoxysphingolipids in humans with HSAN1 and in a transgenic mouse model. As oral l-serine reduces the severity of neuropathy in the mouse model of HSAN1, these data suggest a rational candidate therapy for this devastating condition.
Another VCP interactor: NF is enough
I nclusion body myopathy with Paget disease of the bone and frontotemporal dementia (IBMPFD) is a multisystem degenerative disorder caused by mutations in the valosin-containing protein (VCP) gene. How missense mutations in this abundant, ubiquitously expressed, multifunctional protein lead to the degeneration of disparate tissues is unclear. VCP participates in diverse cellular functions by associating with an expanding collection of substrates and cofactors that dictate its functionality. In this issue of the JCI, Wang and colleagues have further expanded the VCP interactome by identifying neurofibromin-1 (NF1) as a novel VCP interactor in the CNS. IBMPFD-associated mutations disrupt binding of VCP to NF1, resulting in reduced synaptogenesis. Thus, aberrant interactions between VCP and NF1 may explain the dementia phenotype and cognitive delay observed in patients with IBMPFD and neurofibromatosis type 1.
On the origin of the liver
W hile it has been well established that the fetal liver originates from foregut endoderm, the identity of the mechanisms that maintain liver mass under both basal and injury conditions remains controversial. Dramatically different models have been proposed based on the experimental design employed. In this issue of the JCI, Malato and colleagues report their elegant new model for genetic lineage tracing of mature mouse hepatocytes using an adenoassociated virus–driven Cre recombinase. They show convincingly that maintenance of liver mass during normal turnover or in response to mild injury is achieved by mature hepatocytes, rather than cholangiocytes or specialized progenitor cells, as has been suggested by others.
Perception of sound and gravity by TMC1 and TMC2
C entral to our ability to hear and sense gravity is a cellular process known as mechanotransduction, which is initiated by the opening of mechanosensitive cation channels located near the tips of the stereocilia of auditory and vestibular inner ear hair cells. The molecular identity of the mechanotransduction channels has eluded researchers despite intensive investigations over the years. In this issue of the JCI, Kawashima et al. report their results obtained using mice with targeted deletion of both transmembrane channel–like 1 (Tmc1) and Tmc2. The use of inner ear hair cells isolated from these mice provided a nearly perfect system for testing the mechanotransduction channels without disrupting functions of other accessory proteins needed in the complicated molecular apparatus, and it allowed the authors to show that the proteins encoded by these genes are integral components of the mechanotransduction complex.
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