Safia A Mirza scite author profile

Missense mutations in TP53 comprise >75% of all p53 alterations in cancer, resulting in highly stabilized mutant p53 proteins that not only lose their tumor-suppressor activity, but often acquire oncogenic gain-of-functions (GOFs). GOF manifests itself in accelerated tumor onset, increased metastasis, increased drug resistance and shortened survival in patients and mice. A known prerequisite for GOF is mutant p53 protein stabilization, which itself is linked to aberrant protein conformation. However, additional determinants for mutant p53 stabilization likely exist. Here we show that in initially heterozygous mouse tumors carrying the hotspot GOF allele R248Q (p53Q/+), another necessary prerequisite for mutant p53 stabilization and GOF in vivo is loss of the remaining wild-type p53 allele, termed loss-of-heterozygosity (LOH). Thus, in mouse tumors with high frequency of p53 LOH (osteosarcomas and fibrosarcomas), we find that mutant p53 protein is stabilized (16/17 cases, 94%) and tumor onset is significantly accelerated compared with p53+/− tumors (GOF). In contrast, in mouse tumors with low frequency of p53 LOH (MMTV-Neu breast carcinomas), mutant p53 protein is not stabilized (16/20 cases, 80%) and GOF is not observed. Of note, human genomic databases (TCGA, METABRIC etc.) show a high degree of p53 LOH in all examined tumor types that carry missense p53 mutations, including sarcomas and breast carcinomas (with and without HER2 amplification). These data – while cautioning that not all genetic mouse models faithfully represent the human situation – demonstrate for the first time that p53 LOH is a critical prerequisite for missense mutant p53 stabilization and GOF in vivo.

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Failure to engage the temporoparietal junction/posterior superior temporal sulcus predicts impaired naturalistic social cognition in schizophrenia

Patel

Arkin

Ruiz-Betancourt

et al. 2021

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Schizophrenia is associated with marked impairments in social cognition. However, the neural correlates of these deficits remain unclear. Here we use naturalistic stimuli to examine the role of the right temporoparietal junction/posterior superior temporal sulcus (TPJ-pSTS)—an integrative hub for the cortical networks pertinent to the understanding complex social situations—in social inference, a key component of social cognition, in schizophrenia. 27 schizophrenia participants (SzP) and 21 healthy controls watched a clip of the movie “The Good, the Bad, and the Ugly” while high resolution multiband fMRI images were collected. We used inter-subject correlation (ISC) to measure the evoked activity, which we then compared to social cognition as measured by The Awareness of Social Inference Test (TASIT). We also compared between groups the TPJ-pSTS BOLD activity 1) relationship with the motion content in the movie, 2) synchronization with other cortical areas involved in the viewing of the movie, and 3) relationship with the frequency of saccades made during the movie. Activation deficits were greatest in middle TPJ (TPJm) and correlated significantly with impaired TASIT performance across groups. Follow-up analyses of the TPJ-pSTS revealed decreased synchronization with other cortical areas, decreased correlation with the motion content of the movie, and decreased correlation with the saccades made during the movie. The functional impairment of the TPJm, a hub area in the middle of the TPJ-pSTS, predicts deficits in social inference in SzP by disrupting the integration of visual motion processing into the TPJ. This disrupted integration then affects the use of the TPJ to guide saccades during the visual scanning of the movie clip. These findings suggest that the TPJ may be a treatment target for improving deficits in a key component of social cognition in SzP.

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Failure to engage the TPJ-pSTS during naturalistic scene processing in schizophrenia

Patel

Arkin

Ruiz-Betancourt

et al. 2019

Preprint

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Word Count: 407 words Text Body Word Count: 4182 words AbstractThe ability to search for and detect social cues, such as facial expressions of emotion, is critical to the understanding of complex dynamic social situations. This ability involves the coordinated actions of multiple cognitive domains, including face-emotion processing, mentalization, and visual attention. Individuals with schizophrenia are generally impaired in social cognition, and have been shown to have deficits in all of these domains. However, the whether the neural substrates of these impairments are shared or separate remains unclear. One candidate region for a shared substrate is the right temporoparietal junction/posterior superior temporal sulcus (TPJ-pSTS), which contains areas belonging to all of the cortical networks underlying these domains.Here we use functional MRI to examine differences in cortical activity evoked by a naturalistic movie, and link these results to impaired visual scanning and social cognition. 27 schizophrenia participants and 21 healthy controls watched a 15-minute clip of the movie "The Good, the Bad, and the Ugly" while high resolution multiband BOLD-fMRI activity was recorded. Inter-subject correlation was used to measure the evoked activity. BOLD-fMRI activity was also correlated with motion content in the movie, with the average activity in other cortical areas, and with frequency of saccades made during the movie. Visual scanning performance was measured in a separate behavioral experiment, and social cognition measured by The Awareness of Social Inference Test (TASIT).Contrasting the groups revealed that the TPJ-pSTS has the largest engagement deficit in both cortical hemispheres in schizophrenia patients versus healthy controls. Follow-up analyses find that brain activity in this region is less correlated with the motion content of the movie, that this region is abnormally synchronized to the other cortical areas involved in the cognitive domains underlying visual scanning of social scenes, and that activity this region is less correlated with the saccades made during the movie. Lastly, schizophrenia participant visual scanning performance of this clip was impaired compared to healthy controls, and correlated across the two groups with social cognition.These results indicate that the TPJ-pSTS plays less of an integral role in the coordination of face-emotion processing, mentalization, and visual attention in schizophrenia participants versus healthy controls. This functional deficit then impacts the visual scanning of a complex dynamic visual scenes, which in turn affects the comprehension of that scene. These findings indicating that the TPJ-pSTS is potentially the shared substrate for all of these deficits will lead to new treatments targeting this region to improve social cognition in individuals with schizophrenia. Patel et al. 3

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P571. Changes in Movie-Driven Transient Brain States in Schizophrenia Correlate With Naturalistic Social Perception

Mirza

Vieira

Foley³

et al. 2022

Biological Psychiatry

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Safia A Mirza

p53 loss-of-heterozygosity is a necessary prerequisite for mutant p53 stabilization and gain-of-function in vivo

Failure to engage the temporoparietal junction/posterior superior temporal sulcus predicts impaired naturalistic social cognition in schizophrenia

Failure to engage the TPJ-pSTS during naturalistic scene processing in schizophrenia

P571. Changes in Movie-Driven Transient Brain States in Schizophrenia Correlate With Naturalistic Social Perception

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