Gabriella E. DiCarlo scite author profile

Dorsal column lesions at a high cervical level deprive the cuneate nucleus and much of the somatosensory system of its major cutaneous inputs. Over weeks of recovery, much of the hand representations in the contralateral cortex are reactivated. One possibility for such cortical reactivation by hand afferents is that preserved second-order spinal cord neurons reach the cuneate nucleus through pathways that circumvent the dorsal column lesions, contributing to cortical reactivation in an increasingly effective manner over time. To evaluate this possibility, we first injected anatomical tracers into the cuneate nucleus and plotted the distributions of labeled spinal cord neurons and fibers in control monkeys. Large numbers of neurons in the dorsal horn of the cervical spinal cord were labeled, especially unilaterally in lamina IV. Labeled fibers were distributed in the cuneate fasciculus and lateral funiculus. In three other squirrel monkeys, unilateral dorsal column lesions were placed at the cervical segment 4 (C4) level and tracers were injected into the ipsilateral cuneate nucleus. Two weeks later, a largely unresponsive hand representation in contralateral somatosensory cortex confirmed the effectiveness of the dorsal column lesion. However, tracer injections in the cuneate nucleus labeled only about 5% of the normal number of dorsal horn neurons, mainly in lamina IV, below the level of lesions. Our results revealed a small second-order pathway to the cuneate nucleus that survives high cervical dorsal column lesions by traveling in the lateral funiculus. This could be important for cortical reactivation by hand afferents, and recovery of hand use.

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ID family protein expression and regulation in hypoxic pulmonary hypertension

Lowery¹,

Frump²,

Anderson

et al. 2010

American Journal of Physiology-Regulatory, Integrative and Comp

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To address this, we evaluated pulmonary expression of ID proteins in a mouse model of hypoxia-induced PH. There is selective induction of ID1 and ID3 expression in hypoxic pulmonary vascular smooth muscle cells (VSMCs) in vivo, and ID1 and ID3 expression are increased by hypoxia in cultured pulmonary VSMCs in a BMPdependent fashion. ID4 protein is barely detectable in the mouse lung, and while ID2 is induced in hypoxic peripheral VSMCs in vivo, it is not increased by hypoxia or BMP signaling in cultured pulmonary VSMCs. In addition, the PH response to chronic hypoxia is indistinguishable between wild type and Id1 null mice. This is associated with a compensatory increase in ID3 but not ID2 expression in pulmonary VSMCs of Id1 null mice. These findings indicate that ID1 is dispensable for mounting a normal pulmonary vascular response to hypoxia, but suggest that ID3 may compensate for loss of ID1 expression in pulmonary VSMCs. Taken together, these findings indicate that ID1 and ID3 expression are regulated in a BMP-dependent fashion in hypoxic pulmonary VSMCs, and that ID1 and ID3 may play a cooperative role in regulating BMP-dependent VSMC responses to chronic hypoxia. hypoxia; bone morphogenetic protein signaling; ID1; ID2; ID3; vascular smooth muscle cells; endothelial cells GENETIC STUDIES IN PATIENTS with hereditary pulmonary arterial hypertension (HPAH) indicate that defective bone morphogenetic protein (BMP) type 2 receptor (BMPR2) signaling plays a critical role in promoting pulmonary hypertension (PH) and obliterative pulmonary vascular remodeling in this disease (16,25). Studies in mice carrying heterozygous null and hypomorphic germ line Bmpr2 mutations show that these mice do not develop spontaneous PH, but they have increased susceptibility to PH in response to inflammatory mediators and serotonin (22,38,39) or to chronic hypoxia (9). Conditional deletion of Bmpr2 in endothelial cells (ECs) promotes spontaneous PH in a subset of affected mice (11), indicating that defective BMPR2 signaling plays a role in regulating EC function. However, interference with BMPR2 signaling in vascular smooth muscle cells (VSMCs) by overexpression of a dominant negative BMPR2 mutation also promotes spontaneous PH in mice (45). Furthermore, conditional deletion of the BMP type 1 receptor ALK3 in VSMCs reduces hypoxic pulmonary vascular remodeling and VSMC proliferation (7). These findings indicate that defective BMPR2 signaling influences both the EC and VSMC compartments in the pulmonary vasculature. However, the relationship between defective BMP signaling and vascular cell phenotypes in HPAH is complex and poorly understood (23).One approach to explore this has been to investigate the downstream signaling pathways that mediate the effects of BMP receptor mutations in different pulmonary vascular cell types. These studies also enable us to interrogate PH-associated alterations in BMP signaling that occur in the pulmonary vasculature in the absence of BMPR2 mutations. Activation of the BMP receptors leads to COOH-termi...

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Modeling dopamine dysfunction in autism spectrum disorder: From invertebrates to vertebrates

DiCarlo

Wallace

2022

Neuroscience & Biobehavioral Reviews

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A Randomized Controlled Trial for Audiovisual Multisensory Perception in Autistic Youth

Feldman

Dunham

DiCarlo

et al. 2022

J Autism Dev Disord

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Differences in audiovisual integration are commonly observed in autism. Temporal binding windows (TBWs) of audiovisual speech can be trained (i.e., narrowed) in non-autistic adults; this study evaluated a computer-based perceptual training in autistic youth and assessed whether treatment outcomes varied according to individual characteristics. Thirty autistic youth aged 8–21 were randomly assigned to a brief perceptual training ( n = 15) or a control condition ( n = 15). At post-test, the perceptual training group did not differ, on average, on TBWs for trained and untrained stimuli and perception of the McGurk illusion compared to the control group. The training benefited youth with higher language and nonverbal IQ scores; the training caused widened TBWs in youth with co-occurring cognitive and language impairments. Supplementary Information The online version contains supplementary material available at 10.1007/s10803-022-05709-6.

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