Ali Jawaid scite author profile

SummaryGene-environment interactions are determining factors for the etiology of psychiatric disorders, diabetes and cancer, and are thought to contribute to disease inheritance across generations. Small non-coding RNAs (sncRNAs) are potential vectors at the interface between genes and environment. Here, we report that environmental conditions involving traumatic stress in early life in mice altered microRNAs (miRNAs) expression, and behavioral and metabolic responses in the progeny. Several miRNAs were affected in the serum and brain of both, the traumatized animals and their progeny when adult, but also in the sperm of traumatized males. Injection of sperm RNAs from these males into fertilized wild-type oocytes reproduced the behavioral and metabolic alterations in the resulting offspring. These results strongly suggest that sncRNAs are sensitive to environmental factors in early life, and contribute to the inheritance of trauma-induced phenotypes across generations. They may offer potential diagnostic markers for associated pathologies in humans.While the genetic make-up of an individual contributes to disease risk and heritability 1 , environmental factors, in particular, adverse and traumatic experiences in early life are also critical. How they mediate their influence is poorly understood but likely involves nongenetic mechanisms. Small non-coding RNAs (sncRNAs) are potential mediators of geneenvironment interactions that can relay signals from the environment to the genome and exert regulatory functions on gene activity 2 . They are implicated in gene dysregulation in many diseases including psychiatric and neurological conditions, cancer and metabolic disorders 2-4 . Recent studies in C. elegans 5,6 and mice 7,8 have suggested that sncRNAs can * Corresponding author: mansuy@hifo.uzh.ch. $ Current address: Neuroscience Center, University Geneva, Switzerland Authors' contribution K.G. did all RT-qPCRs, behavioral tests, metabolic measurements, sperm RNA preparation for sequencing libraries and for RNA injection into fertilized oocytes and part of the sequencing analyses. A.J. performed Western blots and cell culture experiments and assisted with metabolic measurements. J.B. carried out the MSUS procedures and produced MSUS animals. J.P. and P.S. did most RNA sequencing analyses. P.P. did the RNA injection experiments. E.M. and L.F. helped design RNA sequencing analysis. K.G. and I.M.M. designed the study, interpreted the results and wrote the manuscript.

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FET proteins TAF15 and EWS are selective markers that distinguish FTLD with FUS pathology from amyotrophic lateral sclerosis with FUS mutations

Neumann¹,

et al. 2011

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Accumulation of the DNA/RNA binding protein fused in sarcoma as cytoplasmic inclusions in neurons and glial cells is the pathological hallmark of all patients with amyotrophic lateral sclerosis with mutations in FUS as well as in several subtypes of frontotemporal lobar degeneration, which are not associated with FUS mutations. The mechanisms leading to inclusion formation and fused in sarcoma-associated neurodegeneration are only poorly understood. Because fused in sarcoma belongs to a family of proteins known as FET, which also includes Ewing's sarcoma and TATA-binding protein-associated factor 15, we investigated the potential involvement of these other FET protein family members in the pathogenesis of fused in sarcoma proteinopathies. Immunohistochemical analysis of FET proteins revealed a striking difference among the various conditions, with pathology in amyotrophic lateral sclerosis with FUS mutations being labelled exclusively for fused in sarcoma, whereas fused in sarcoma-positive inclusions in subtypes of frontotemporal lobar degeneration also consistently immunostained for TATA-binding protein-associated factor 15 and variably for Ewing's sarcoma. Immunoblot analysis of proteins extracted from post-mortem tissue of frontotemporal lobar degeneration with fused in sarcoma pathology demonstrated a relative shift of all FET proteins towards insoluble protein fractions, while genetic analysis of the TATA-binding protein-associated factor 15 and Ewing's sarcoma gene did not identify any pathogenic variants. Cell culture experiments replicated the findings of amyotrophic lateral sclerosis with FUS mutations by confirming the absence of TATA-binding protein-associated factor 15 and Ewing's sarcoma alterations upon expression of mutant fused in sarcoma. In contrast, all endogenous FET proteins were recruited into cytoplasmic stress granules upon general inhibition of Transportin-mediated nuclear import, mimicking the findings in frontotemporal lobar degeneration with fused in sarcoma pathology. These results allow a separation of fused in sarcoma proteinopathies caused by FUS mutations from those without a known genetic cause based on neuropathological features. More importantly, our data imply different pathological processes underlying inclusion formation and cell death between both conditions; the pathogenesis in amyotrophic lateral sclerosis with FUS mutations appears to be more restricted to dysfunction of fused in sarcoma, while a more global and complex dysregulation of all FET proteins is involved in the subtypes of frontotemporal lobar degeneration with fused in sarcoma pathology.

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TDP-43 Depletion in Microglia Promotes Amyloid Clearance but Also Induces Synapse Loss

Paolicelli

Jawaid

Henstridge

et al. 2017

Neuron

184

145

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SummaryMicroglia coordinate various functions in the central nervous system ranging from removing synaptic connections, to maintaining brain homeostasis by monitoring neuronal function, and clearing protein aggregates across the lifespan. Here we investigated whether increased microglial phagocytic activity that clears amyloid can also cause pathological synapse loss. We identified TDP-43, a DNA-RNA binding protein encoded by the Tardbp gene, as a strong regulator of microglial phagocytosis. Mice lacking TDP-43 in microglia exhibit reduced amyloid load in a model of Alzheimer’s disease (AD) but at the same time display drastic synapse loss, even in the absence of amyloid. Clinical examination from TDP-43 pathology cases reveal a considerably reduced prevalence of AD and decreased amyloid pathology compared to age-matched healthy controls, confirming our experimental results. Overall, our data suggest that dysfunctional microglia might play a causative role in the pathogenesis of neurodegenerative disorders, critically modulating the early stages of cognitive decline.

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Does PTSD Impair Cognition Beyond the Effect of Trauma?

Qureshi¹,

Long²,

Bradshaw³

et al. 2011

Journal of Neuropsychiatry

179

128

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This systematic review analyzed data from studies examining memory and cognitive function in subjects with posttraumatic stress disorder (PTSD), compared with subjects exposed to trauma (but without PTSD). Based on analysis of 21 articles published in English from 1968 to 2009, the conclusion is that individuals with PTSD, particularly veterans, show signs of cognitive impairment when tested with neuropsychological instruments, more so than individuals exposed to trauma who do not have PTSD.

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Ali Jawaid

Implication of sperm RNAs in transgenerational inheritance of the effects of early trauma in mice

FET proteins TAF15 and EWS are selective markers that distinguish FTLD with FUS pathology from amyotrophic lateral sclerosis with FUS mutations

TDP-43 Depletion in Microglia Promotes Amyloid Clearance but Also Induces Synapse Loss

Does PTSD Impair Cognition Beyond the Effect of Trauma?

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