Regressive events play a key role in modifying neural connectivity in early development. An important regressive event is the pruning of neuronal processes. Pruning is a strategy often used to selectively remove exuberant neuronal branches and connections in the immature nervous system to ensure the proper formation of functional circuitry. In the following review, we discuss our present understanding of the cellular and molecular mechanisms that regulate the pruning of axons during neuronal development as well as in neurological diseases. The evidence suggests that there are several similarities between the mechanisms that are involved in developmental axon pruning and axon elimination in disease. In summary, these findings provide researchers with a unique perspective on how developmental plasticity is achieved and how to develop strategies to treat complex neurological diseases.
Hepatosplenic T cell lymphoma (HSTL) is a rare and lethal lymphoma; the genetic drivers of this disease are unknown. Through whole exome sequencing of 68 HSTLs, we define recurrently mutated driver genes and copy number alterations in the disease. Chromatin modifying genes including SETD2, INO80 and ARID1B were commonly mutated in HSTL, affecting 62% of cases. HSTLs manifest frequent mutations in STAT5B (31%), STAT3 (9%), and PIK3CD (9%) for which there currently exist potential targeted therapies. In addition, we noted less frequent events in EZH2, KRAS and TP53. SETD2 was the most frequently silenced gene in HSTL. We experimentally demonstrated that SETD2 acts as a tumor suppressor gene. In addition, we found that mutations in STAT5B and PIK3CD activate critical signaling pathways important to cell survival in HSTL. Our work thus defines the genetic landscape of HSTL and implicates novel gene mutations linked to HSTL pathogenesis and potential treatment targets.
, and BCL6 and fluorescence in situ hybridization (FISH) for MYC were performed. In cases with MYC rearrangement or copy gain, FISH for BCL2 and BCL6 was also performed. Results A total of 117 patients were included; 44% had DEL and 10% had DHL. DEL and DHL were associated with inferior progression-free survival (PFS), and DHL was associated with poorer overall survival (OS). The 4-year PFS in patients with DEL compared with those with non-DEL was 48% versus 59% (P = .049), and the 4-year OS was 56% versus 67% (P = .10); 4-year PFS in patients with DHL compared with those with non-DHL was 28% versus 57% (P = .013), and 4-year OS was 25% versus 61% (P = .002). The few patients with concurrent DEL and DHL had a poor outcome (4-year PFS, 0%). In multivariable models, DEL and DHL were independently associated with inferior PFS, whereas DHL and partial response (v complete response) at transplant were associated with inferior OS. Conclusion DEL and DHL are both associated with inferior outcomes after ASCT in patients with rel/ref DLBCL. Although ASCT remains a potentially curative approach, these patients, particularly those with DHL, are a high-risk subset who should be targeted for investigational strategies other than standard ASCT.
Plexin signaling is required for stereotyped pruning of long axon collaterals in the vertebrate CNS; however, a cellular basis for plexins on stereotyped pruning has not been determined. Using quantitative electron microscopy and immunocytochemistry, we found that infrapyramidal mossy fiber axon collaterals form transient synaptic complexes with basal dendrites of CA3 pyramidal cells in the early postnatal mouse hippocampus. At later postnatal ages, these synaptic complexes stop maturing and are removed before stereotyped pruning by a mechanism that does not involve axon degeneration and glial cell engulfment. In knock-out mice that lack plexin-A3 signaling, the synaptic complexes continue to mature, and, as a result, the collaterals are not pruned. Thus, our results suggest that intact plexin-A3 signaling contributes to synaptic complex elimination, which is associated with stereotyped axon pruning.
Neurons in the developing CNS tend to send out long axon collaterals to multiple target areas. For these neurons to attain specific connections, some of their axon collaterals are subsequently pruned-a process called stereotyped axon pruning. One of the most striking examples of stereotyped pruning in the CNS is the pruning of corticospinal tract (CST) axons. The long CST collaterals from layer V neurons of the visual and motor cortices are differentially pruned during development. Here we demonstrate that select plexins and neuropilins, which serve as coreceptors for semaphorins, are expressed in visual cortical neurons at the time when CST axon collaterals are stereotypically pruned. By analyzing mutant mice, we find that the pruning of visual, but not motor, CST axon collaterals depends on plexin-A3, plexin-A4, and neuropilin-2. Expression pattern study suggests that Sema3F is a candidate local cue for the pruning of visual CST axons. Using electron microscopic analysis, we also show that visual CST axon collaterals form synaptic contacts in the spinal cord before pruning and that the unpruned collaterals in adult mutant mice are unmyelinated and maintain their synaptic contacts. Our results indicate that the stereotyped pruning of the visual and motor CST axon collaterals is differentially regulated and that this specificity arises from the differential expression of plexin receptors in the cortex.axon pruning ͉ corticospinal tract ͉ plexin A functional nervous system depends on the precise wiring of neuronal connections with appropriate targets. During early development, neurons tend to send out axons with excessive branches to multiple target areas. When the neuronal targets become mature, the unnecessary branches are specifically pruned. Stereotyped axon pruning, or pruning of long axon collaterals in a predictable manner, is a major phenomenon in the developing CNS. This type of pruning has been observed in species ranging from Drosophila to mouse and is thought to be essential for the normal development of the CNS (1-5).One classic example of stereotyped pruning in higher vertebrates is in the developing corticospinal tract (CST) (6-10). In developing rodents, CST axons originate from layer V cortical pyramidal neurons in all regions of the neocortex (9, 11). These axons are guided through the internal capsule, cerebral peduncle, and pyramidal tract and then turn dorsally to cross the midline at the pyramidal decussation before they reach the contralateral spinal cord (Fig. 1A). The targeting of primary CST axons to the spinal cord is followed by axon collateral branching to targets in the brainstem and spinal cord (Fig. 1B). This initial projection pattern of CST axons is later modified via stereotyped axon pruning as regions of the neocortex become specialized, and the rostral-caudal location of parent cells within the neocortex determines which axon collaterals are pruned (Fig. 1C). Thus, motor neurons in rostral cortex prune their axons from the superior and inferior colliculi, whereas visual neuron...
To allow the simultaneous evaluation of the interaction between sulfinpyrazone and each enantiomer of racemic warfarin, pseudoracemic warfarin (1:1 12C-R(+) and 13C-S(-)warfarin) was given to six normal subjects both before and during oral sulfinpyrazone dosing. Serial blood and urine samples were analyzed for unchanged warfarin and its metabolic products by GC/MS. A mass balance of an oral dose of pseudoracemic warfarin, containing a tracer quantity of 14C-warfarin, was carried out in one of the subjects by monitoring 14C levels in urine and feces for 15 days. Concomitant sulfinpyrazone dosing markedly increased hypoprothrombinemia, decreased clearance of (S)-warfarin, and increased clearance of (R)-warfarin. Sulfinpyrazone also decreased the urinary excretion of warfarin-related products but increased their fecal excretion by an equivalent amount. Virtually all of the administered warfarin dose could be accounted for either as unchanged drug or known metabolites. Pharmacokinetic analysis of the data suggests the following: At least four distinct enzymes (two oxidases and two reductases) are involved in the metabolism of warfarin. Sulfinpyrazone increases the hypoprothrombinemia caused by warfarin primarily by inhibition of the cytochrome P-450-mediated oxidation of (S)-warfarin, the biologically more potent enantiomer. The increased clearance of (R)-warfarin results not from induction, but from its selective displacement from plasma protein binding sites.
Background: The development of the corticospinal tract (CST) in higher vertebrates relies on a series of axon guidance decisions along its long projection pathway. Several guidance molecules are known to be involved at various decision points to regulate the projection of CST axons. However, previous analyses of the CST guidance defects in mutant mice lacking these molecules have suggested that there are other molecules involved in CST axon guidance that are yet to be identified. In this study, we investigate the role of plexin signaling in the guidance of motor CST axons in vivo.
Objectives To gather empirical evidence on any discrimination based on genetic information shown by the insurance industry in the United Kingdom and to assess how society is likely to handle future genetic information from tests for polygenic multifactorial conditions. Design Postal questionnaire survey.
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