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1. Photoacoustic Imaging as a Tool for Assessing Hair Follicular Organization

   https://doi.org/10.3390/s20205848  

   Hariri, Ali; Moore, Colman; Mantri, Yash; Jokerst, Jesse V. (October 2020, Sensors)

   null (Ed.)

   Follicular unit extraction (FUE) and follicular unit transplantation (FUT) account for 99% of hair transplant procedures. In both cases, it is important for clinicians to characterize follicle density for treatment planning and evaluation. The existing gold-standard is photographic examination. However, this approach is insensitive to subdermal hair and cannot identify follicle orientation. Here, we introduce a fast and non-invasive imaging technique to measure follicle density and angles across regions of varying density. We first showed that hair is a significant source of photoacoustic signal. We then selected regions of low, medium, and high follicle density and showed that photoacoustic imaging can measure the density of follicles even when they are not visible by eye. We performed handheld imaging by sweeping the transducer across the imaging area to generate 3D images via maximum intensity projection. Background signal from the dermis was removed using a skin tracing method. Measurement of follicle density using photoacoustic imaging was highly correlated with photographic determination (R2 = 0.96). Finally, we measured subdermal follicular angles—a key parameter influencing transection rates in FUE. 

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2. Does Rapamycin Delay Ovarian Aging and Decrease Senescence? A First-ever analysis in a Non-human Primate Model

   https://doi.org/10.1016/j.fertnstert.2024.08.080  

   Bonus, Marissa L; Wolf, Shally N; Stanley, Jessica E; Azooz, Masara; Hennebold, Jon D; Krieg, Adam J; Shah, Gaurika; Watanabe, Karen; Zelinski, Mary B (October 2024, Fertility and Sterility)

   OBJECTIVE: Rapamycin prolongs reproductive lifespan in mice by halting primordial follicle activation. The impact of rapamycin on the preantral follicle pool and senescence markers during ovarian aging in macaques was evaluated. MATERIALS AND METHODS: One ovary was removed from young (n=2, 6–9 yr) and old (n=2, 17–21 yr) adult female rhesus macaques during a normal menstrual cycle (pre-treatment). The remaining ovary was obtained after animals were treated with rapamycin (bid, IM, 0.02mg/kg) for 10 months. Ovaries were fixed and serially sectioned for follicle counting (each 10th section, 15-39 sections/ovary). Immunohistochemical analyses were performed for anti-Mullerian hormone (AMH) and cellular senescence markers p16, p53, and p21 (1 slide/ovary). Qualitative comparisons were made due to the small sample size. RESULTS: The primordial follicle pool was decreased in young (3,939 pre-treatment vs. 2,219 post-treatment), but similar in old (555 pre- vs. 574 post-treatment) females after rapamycin. The number of transitional primordial follicles was greater before rapamycin than after in both young (14,920 vs. 4,924) and old (1,915 vs. 1,311) females. The number of primary follicles before (2,617) rapamycin was greater than after (560) in young and old females (518 pre- vs. 428 post-treatment). A similar proportion of follicles positive for p16 was seen before and after rapamycin in both young and old females. Similar findings were also observed for AMH, except there are fewer positive follicles in the rapamycin-treated older group. The proportion of follicles staining positive for both p53 and p21 was increased in both young and old monkeys after treatment. CONCLUSIONS: Rapamycin had no impact on the primordial and primary follicle pools in old female macaques while unexpectedly decreasing both pools in young females. While the number of p16-positive follicles was unaffected by rapamycin treatment, the number of p53 and p21-positive follicles was increased by treatment in both age cohorts. IMPACT STATEMENT: At the dose and treatment interval used, rapamycin does not appear to suppress follicular activation and has mixed effects on senescence markers in aging nonhuman primate ovaries. 

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3. Consuming royal jelly alters several phenotypes associated with overwintering dormancy in mosquitoes

   https://doi.org/10.3389/finsc.2024.1358619  

   Bianco, Olivia E; Abdi, Aisha; Klein, Matthias S; Wei, Xueyan; Sim, Cheolho; Meuti, Megan E (June 2024, Frontiers in Insect Science)

   IntroductionFemales of the Northern house mosquito,Culex pipiens, enter an overwintering dormancy, or diapause, in response to short day lengths and low environmental temperatures that is characterized by small egg follicles and high starvation resistance. During diapause,Culex pipiensMajor Royal Jelly Protein 1 ortholog (CpMRJP1) is upregulated in females ofCx. pipiens. This protein is highly abundant in royal jelly, a substance produced by honey bees (Apis mellifera), that is fed to future queens throughout larval development and induces the queen phenotype (e.g., high reproductive activity and longer lifespan). However, the role of CpMRJP1 inCx. pipiensis unknown. MethodsWe first conducted a phylogenetic analysis to determine how the sequence of CpMRJP1 compares with other species. We then investigated how supplementing the diets of both diapausing and nondiapausing females ofCx. pipienswith royal jelly affects egg follicle length, fat content, protein content, starvation resistance, and metabolic profile. ResultsWe found that feeding royal jelly to females reared in long-day, diapause-averting conditions significantly reduced the egg follicle lengths and switched their metabolic profiles to be similar to diapausing females. In contrast, feeding royal jelly to females reared in short-day, diapause-inducing conditions significantly reduced lifespan and switched their metabolic profile to be similar nondiapausing mosquitoes. Moreover, RNAi directed againstCpMRJPIsignificantly increased egg follicle length of short-day reared females, suggesting that these females averted diapause. DiscussionTaken together, our data show that consuming royal jelly reverses several key seasonal phenotypes ofCx. pipiensand that these responses are likely mediated in part by CpMRJP1. 

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4. An In‐Depth Coho Salmon ( Oncorhynchus kisutch) Ovarian Follicle Proteome Reveals Coordinated Changes Across Diverse Cellular Processes during the Transition From Primary to Secondary Growth

   https://doi.org/10.1002/pmic.202400311  

   Timmins‐Schiffman, Emma; Telish, Jennifer; Field, Chelsea; Monson, Chris; Guzmán, José_M; Nunn, Brook_L; Young, Graham; Forsgren, Kristy (December 2024, PROTEOMICS)

   ABSTRACT Teleost fishes are a highly diverse, ecologically essential group of aquatic vertebrates that include coho salmon (Oncorhynchus kisutch). Coho are semelparous and all ovarian follicles develop synchronously. Owing to their ubiquitous distribution, teleosts provide critical sources of food worldwide through subsistence, commercial fisheries, and aquaculture. Enhancement of hatchery practices requires detailed knowledge of teleost reproductive physiology. Despite decades of research on teleost reproductive processes, an in‐depth proteome of teleost ovarian development has yet to be generated. We have described a coho salmon ovarian proteome of over 5700 proteins, generated with data independent acquisition, revealing the proteins that change through the transition from primary to secondary ovarian follicle development. This transition is critical during the onset of puberty and for determining egg quality and embryonic development. Primary follicle development was marked by differential abundances of proteins in carbohydrate metabolism, protein turnover, and the complement pathway, suggesting elevated metabolism as the follicles develop through stages of oogenesis. The greatest proteomic shift occurred during the transition from primary to secondary follicle growth, with increased abundance of proteins underlying cortical alveoli formation, extracellular matrix reorganization, iron binding, and cell–cell signaling. This work provides a foundation for identifying biomarkers of salmon oocyte stage and quality. 

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5. Sweat gland development requires an eccrine dermal niche and couples two epidermal programs

   https://doi.org/10.1016/j.devcel.2023.11.015  

   Dingwall, Heather L.; Tomizawa, Reiko R.; Aharoni, Adam; Hu, Peng; Qiu, Qi; Kokalari, Blerina; Martinez, Serenity M.; Donahue, Joan C.; Aldea, Daniel; Mendoza, Meryl; et al (January 2024, Developmental Cell)

   Eccrine sweat glands are indispensable for human thermoregulation and, similar to other mammalian skin appendages, form from multipotent epidermal progenitors. Limited understanding of how epidermal progen- itors specialize to form these vital organs has precluded therapeutic efforts toward their regeneration. Herein, we applied single-nucleus transcriptomics to compare the expression content of wild-type, eccrine-forming mouse skin to that of mice harboring a skin-specific disruption of Engrailed 1 (En1), a transcription factor that promotes eccrine gland formation in humans and mice. We identify two concurrent but disproportionate epidermal transcriptomes in the early eccrine anlagen: one that is shared with hair follicles and one that is En1 dependent and eccrine specific. We demonstrate that eccrine development requires the induction of a dermal niche proximal to each developing gland in humans and mice. Our study defines the signatures of eccrine identity and uncovers the eccrine dermal niche, setting the stage for targeted regeneration and comprehensive skin repair. 

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