Huma S. Baig scite author profile

SUMMARY Axon regeneration is essential to restore the nervous system after axon injury. However, the neuronal cell biology that underlies axon regeneration is incompletely understood. Here we use in vivo single-neuron analysis to investigate the relationship between nerve injury, mitochondrial localization, and axon regeneration. Mitochondria translocate into injured axons, so that average mitochondria density increases after injury. Moreover, single-neuron analysis reveals that axons that fail to increase mitochondria have poor regeneration. Experimental alterations to axonal mitochondrial distribution or mitochondrial respiratory chain function result in corresponding changes to regeneration outcomes. Axonal mitochondria are specifically required for growth cone migration, identifying a key energy challenge for injured neurons. Finally, mitochondrial localization to the axon after injury is regulated in part by dual-leucine zipper kinase-1 (DLK-1), a conserved regulator of axon regeneration. These data identify regulation of axonal mitochondria as a new cell biological mechanism that helps determine the regenerative response of injured neurons.

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RNA ligation in neurons by RtcB inhibits axon regeneration

Kosmaczewski

Han

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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Activity of the RNA ligase RtcB has only two known functions: tRNA ligation after intron removal and XBP1 mRNA ligation during activation of the unfolded protein response. Here, we show that RtcB acts in neurons to inhibit axon regeneration after nerve injury. This function of RtcB is independent of its basal activities in tRNA ligation and the unfolded protein response. Furthermore, inhibition of axon regeneration is independent of the RtcB cofactor archease. Finally, RtcB is enriched at axon termini after nerve injury. Our data indicate that neurons have co-opted an ancient RNA modification mechanism to regulate specific and dynamic functions and identify neuronal RtcB activity as a critical regulator of neuronal growth potential.axon regeneration | RNA ligation | RtcB T he RNA ligase RtcB is the only known RNA ligase in metazoans. RNA ligation by RtcB is required for the maturation of intron-containing tRNAs (1-3), and also, it is required to process the transcription factor xbp-1 mRNA and activate the unfolded protein response (UPR) (4-6). Other than these two basic cellular processes, which are likely common to all metazoan cells, no functions for RNA ligation or RtcB are known. The nervous system is a site of expanded RNA processing after transcription. For example, neurons regulate alternative premRNA splicing in response to activity (7-10) and are highly enriched for mRNA editing (11-13). Here, we define a neuron-specific function for RtcB activity in regulating axon regeneration and show that this neuronal function is independent of RtcB's activities in tRNA and xbp-1 ligation.RtcB activity in neurons inhibits axon regeneration. We assayed axon regeneration in the GABA motor neurons of Caenorhabditis elegans using single-neuron laser axotomy (14). Mutants in the single C. elegans ortholog of RtcB, rtcb-1(gk451) (5), exhibited increased regeneration to the dorsal nerve cord (DNC) at 24 h after injury, consistent with previous data (Fig. 1 A and B) (15). Increased DNC regeneration was reduced to WT levels by introduction of a single-copy WT RtcB transgene (Fig. 1A). The increase in DNC regeneration is not caused by the trivial explanation that RtcB animals are narrower than the WT. At 6 h after injury, a time point at which neurons in WT animals are just initiating regeneration (15-17), a substantial fraction of axons in RtcB mutants had already regenerated to the DNC (Fig. 1C). Furthermore, WT animals did not regenerate as well as RtcB mutants, even when given additional time to regenerate (Fig. 1C). Finally, rescuing the overall growth defects of RtcB mutants did not alter the effect of loss of RtcB on axon regeneration (Fig. 2). Thus, loss of RtcB results in faster and more successful axon regeneration. Increased regeneration depends on loss of RtcB in neurons, because expressing WT RtcB under a GABA-specific promoter restored DNC regeneration to WT levels (Fig. 1A). DNC regeneration levels were not restored when the rescue construct contained a point mutation that eliminates ligase activity (H428A) ...

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Risk of Sexually Transmitted Zika Virus in a Cohort of Economically Disadvantaged Urban Residents

Ticona

Baig

Nery

et al. 2021

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In order to understand the disease burden of sexually transmitted Zika virus (ZIKV), we prospectively followed a cohort of 359 adult and adolescent residents of an urban community in Salvador, Brazil through the 2015 ZIKV epidemic. Later, in 2017, we used a retrospective survey to associate sexual behavior during the epidemic with ZIKV infection as defined by IgG3-NS1 ELISA. We found that males who engaged in casual sexual encounters during the epidemic were more likely (ORa=6.2; 95%CI 1.2–64.1) to be ZIKV positive, suggesting that specific groups may be at increased risk of sexually transmitted infections.

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Huma S. Baig

Mitochondria Localize to Injured Axons to Support Regeneration

RNA ligation in neurons by RtcB inhibits axon regeneration

Risk of Sexually Transmitted Zika Virus in a Cohort of Economically Disadvantaged Urban Residents

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