👤 Joel P Mackay

Brain-derived neurotrophic factor (BDNF) is a key neurotrophin due to its role in neuron process outgrowth, plasticity, and neuronal survival. Aerobic exercise can induce BDNF release and may ultimately maximize post-stroke recovery. This study aimed to determine if a program of moderate-to-high-intensity aerobic exercise increased concentrations of BDNF in subacute stroke survivors compared to usual care. A parallel-group, RCT was undertaken in people with subacute stroke undergoing rehabilitation. Participants were randomly allocated to usual care (control group) or usual care plus an 8-week program of moderate-high intensity treadmill walking (3 x 30 min sessions per week) (experimental group). Serum BDNF was collected by blinded assessors at baseline (Week 0), at the end of the intervention period (Week 8), and at 6 months follow up (Week 26). Sixty-seven participants ( As concentrations of BDNF increased immediately after a program of aerobic exercise, this may present a potential neurobiological mechanism to enhance recovery after stroke. Show less

Lecanemab is an anti-amyloid monoclonal antibody, recently approved in the UK as a treatment for mild cognitive impairment (MCI) and mild dementia due to Alzheimer's disease (AD) in adults who are apolipoprotein E ε4 gene ( Show less

Snakebites affect about 1.8 million people annually. The current standard of care involves antibody-based antivenoms, which can be difficult to access and are generally not effective against local tissue injury, the primary cause of morbidity. Here, we used a pooled whole-genome CRISPR knockout screen to define human genes that, when targeted, modify cell responses to spitting cobra venoms. A large portion of modifying genes that conferred resistance to venom cytotoxicity was found to control proteoglycan biosynthesis, including Show less

Testosterone and dihydrotestosterone (DHT) are essential for male development and fertility. In the canonical androgen production pathway, testosterone is produced in the testis by HSD17B3; however, adult male Hsd17b3 knockout (KO) mice continue to produce androgens and are fertile, indicating compensatory mechanisms exist. A second, alternate pathway produces DHT from precursors other than testosterone via 5α-reductase (SRD5A) activity. We hypothesized that the alternate pathway contributes to androgen bioactivity in Hsd17b3 KO mice. To investigate contributions arising from and interactions between the canonical and alternate pathways, we pharmacologically inhibited SRD5A and ablated Srd5a1 (the predominant SRD5A in the testis) on the background of Hsd17b3 KO mice. Mice with perturbation of either the canonical or both pathways exhibited increased LH, testicular steroidogenic enzyme expression, and normal reproductive tracts and fertility. In the circulation, alternate pathway steroids were increased in the absence of HSD17B3 but were reduced by co-inhibition of SRD5A1. Mice with perturbations of both pathways produced normal basal levels of intratesticular testosterone, suggesting the action of other unidentified hydroxysteroid dehydrogenase(s). Strikingly, testicular expression of another SRD5A enzyme, Srd5a2, was markedly increased in the absence of Hsd17b3, suggesting a compensatory increase in SRD5A2 to maintain androgen bioactivity during HSD17B3 deficiency. Finally, we observed elevated circulating concentrations of the 11-keto-derivative of DHT, suggesting compensatory extra-gonadal induction of bioactive 11-keto androgen production. Taken together, we conclude that, in the absence of the canonical pathway of androgen production, multiple intra- and extra-gonadal mechanisms cooperate to maintain testosterone and DHT production, supporting male development and fertility. Show less

In cats, mutations in myosin binding protein C (encoded by the MYBPC3 gene) have been associated with hypertrophic cardiomyopathy (HCM). However, the molecular mechanisms linking these mutations to HCM remain unknown. Here, we establish Drosophila melanogaster as a model to understand this connection by generating flies harboring MYBPC3 missense mutations (A31P and R820W) associated with feline HCM. The A31P and R820W flies displayed cardiovascular defects in their heart rates and exercise endurance. We used RNA-seq to determine which processes are misregulated in the presence of mutant MYBPC3 alleles. Transcriptome analysis revealed significant downregulation of genes encoding small nucleolar RNA (snoRNAs) in exercised female flies harboring the mutant alleles compared to flies that harbor the wild-type allele. Other processes that were affected included the unfolded protein response and immune/defense responses. These data show that mutant MYBPC3 proteins have widespread effects on the transcriptome of co-regulated genes. Transcriptionally differentially expressed genes are also candidate genes for future evaluation as genetic modifiers of HCM as well as candidate genes for genotype by exercise environment interaction effects on the manifestation of HCM; in cats as well as humans. Show less

Male development, fertility, and lifelong health are all androgen-dependent. Approximately 95% of circulating testosterone is synthesized by the testis and the final step in this canonical pathway is controlled by the activity of the hydroxysteroid-dehydrogenase-17-beta-3 (HSD17B3). To determine the role of HSD17B3 in testosterone production and androgenization during male development and function we have characterized a mouse model lacking HSD17B3. The data reveal that developmental masculinization and fertility are normal in mutant males. Ablation of HSD17B3 inhibits hyperstimulation of testosterone production by hCG, although basal testosterone levels are maintained despite the absence of HSD17B3. Reintroduction of HSD17B3 via gene-delivery to Sertoli cells in adulthood partially rescues the adult phenotype, showing that, as in development, different cell-types in the testis are able to work together to produce testosterone. Together, these data show that HS17B3 acts as a rate-limiting-step for the maximum level of testosterone production by the testis but does not control basal testosterone production. Measurement of other enzymes able to convert androstenedione to testosterone identifies HSD17B12 as a candidate enzyme capable of driving basal testosterone production in the testis. Together, these findings expand our understanding of testosterone production in males. Show less

The Cln3-Cdc28 kinase is required to activate the Swi4-Swi6 transcription complex which induces CLN1 and CLN2 transcription in late G(1) and drives the transition to S. Cln3 and Swi4 are both rate limiting for G(1) progression, and they are coordinately transcribed to peak at the M/G(1) boundary. Early cell cycle box (ECB) elements, which confer M/G(1)-specific transcription, have been found in both promoters, and elimination of all ECB elements from the CLN3 promoter causes both a loss of periodicity and Cln3-deficient phenotypes, which include an extended G(1) interval and increased cell volume. Mutants lacking the ECB elements in both the CLN3 and SWI4 promoters have low and deregulated levels of CLN transcripts, and the G(1)-to-S transition for these mutants is delayed and highly variable. These observations support the view that the coordinated rise of Cln3 and Swi4 levels mediated by ECB-dependent transcription controls the timing of the G(1)-to-S phase transition. Show less