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Studies on isolated hair folliclesPhilpot, Michael Paul January 1989 (has links)
No description available.
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A transgenic mouse model to study the role of epidermal growthfactor (EGF) in hair and skin development麥經綸, Mak, King-lun, Kingston. January 2002 (has links)
published_or_final_version / Paediatrics / Doctoral / Doctor of Philosophy
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Hair Growth Is Induced by Blockade of Macrophage-derived Oncostatin M and Downstream Jak-stat5 Signaling in Hair Follicle Stem CellsWang, Etienne Cho Ee January 2018 (has links)
Our lab recently described a role for JAK-STAT signaling in the maintenance of quiescence during the murine hair cycle. Research into signaling pathways and cytokines/growth factors involved in the mammalian hair cycle has not focused extensively on the JAK-STAT pathway. In this thesis, I investigated the upstream effector(s) and downstream mechanisms of JAK-STAT signaling in the HFSC during telogen, using a variety of methods, including murine conditional mutants of the JAK-STAT pathway, pharmacological and immunological techniques. The mechanism through which OSM exerts this effect is via JAK-STAT5 signaling downstream of the OSM receptor, which is antagonized by pharmacological JAK inhibition. Conditional epidermal ablation of OSMR or STAT5 during early- and mid-telogen (P42 – P60) shortens the telogen phase significantly, and inhibition of macrophages by way of neutralizing antibodies, small molecule inhibitors, and genetic ablation (with Csf1r-CreER::R26-iDTR mice) during telogen also promotes hair growth. Single-cell RNA sequencing of dermal immune cells across murine telogen identified a distinct subset of TREM2+ macrophages that are enriched for OSM, and gene-set analysis suggests these “trichophages” are similar to the microglia of the central nervous system. I show that this distinct subset of TREM2+ macrophages predominate during early- and mid-telogen, where they produce Oncostatin M (OSM), which is sufficient to maintain quiescence of hair follicle stem cells (HFSCs). Proliferation of HFSCs and hair growth is associated with depletion of this subset of TREM2+ macrophages. Interestingly, macrophage markers and OSM were found to be upregulated in the balding scalp of males with androgenetic alopecia, suggesting that this mechanism is physiologically relevant in the control of human hair cycling.
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Compound mutations in the mammalian EGFR signalling pathway affect epidermal development, growth and viabilityDavidson, Bruce Paul, University of Western Sydney, School of Biological Sciences January 1997 (has links)
The widespread expression of polypeptide growth factors from the earliest stages of embryonic development through to mature issues in the adult organism suggests an involvement in a reiterated developmental process affecting the underlying cellular growth and differentiation of many tissues. The hair follicle has taken on increased significance with the observation that many genetic mutations in these peptide growth factor genes affect its development. The targeted disruption of genes encoding members of the EpidermalGrowth Factor (EGF) and Fibroblast Growth Factor (FGF) families in the mouse has revealed a functional role for these proteins in the regulation of hair follicle growth. Experimental data and other factors are examined and results given. A second experimental system was used to determine if a functional relationship between certain peptide growth factors was conserved in the Merino sheep. The induction of a catagen-like state in the wool follicle and other epidermal changes associated with EGF treatment may be related to the transciptional induction of these peptide growth factors / Doctor of Philosophy (PhD)
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The prostamide-related glaucoma therapy, bimatoprost, offers a novel approach for treating scalp alopeciasKhidhir, Karzan Ghafur, Woodward, D.F., Farjo, N.P., Farjo, B.K., Tang, E.S., Wang, J.W., Randall, Valerie A., Picksley, Stephen M. January 2013 (has links)
No / Balding causes widespread psychological distress but is poorly controlled. The commonest treatment, minoxidil, was originally an antihypertensive drug that promoted unwanted hair. We hypothesized that another serendipitous discovery, increased eyelash growth side-effects of prostamide F2α-related eyedrops for glaucoma, may be relevant for scalp alopecias. Eyelash hairs and follicles are highly specialized and remain unaffected by androgens that inhibit scalp follicles and stimulate many others. Therefore, we investigated whether non-eyelash follicles could respond to bimatoprost, a prostamide F2α analog recently licensed for eyelash hypotrichosis. Bimatoprost, at pharmacologically selective concentrations, increased hair synthesis in scalp follicle organ culture and advanced mouse pelage hair regrowth in vivo compared to vehicle alone. A prostamide receptor antagonist blocked isolated follicle growth, confirming a direct, receptor-mediated mechanism within follicles; RT-PCR analysis identified 3 relevant receptor genes in scalp follicles in vivo. Receptors were located in the key follicle regulator, the dermal papilla, by analyzing individual follicular structures and immunohistochemistry. Thus, bimatoprost stimulates human scalp follicles in culture and rodent pelage follicles in vivo, mirroring eyelash behavior, and scalp follicles contain bimatoprost-sensitive prostamide receptors in vivo. This highlights a new follicular signaling system and confirms that bimatoprost offers a novel, low-risk therapeutic approach for scalp alopecias.
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Re-evaluating cyclosporine A as a hair growth-promoting agent in human scalp hair folliclesHawkshaw, N.J., Haslam, I.S., Ansell, David, Shamalak, A., Paus, R. 07 May 2020 (has links)
No / Cyclosporine A (CsA) has long been recognized as a potent hair growth stimulator in both humans and rodent. The induction of a dose-dependent hypertrichosis is one of the most frequent adverse effects of long-term CsA therapy (Lutz, 1994). However, it is unclear how this immunosuppressant induces hypertrichosis in patients or stimulates hair growth in human scalp skin transplanted on nude mice (Gilhar et al., 1988; Gilhar et al., 1991).
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Can plant-derived phytochemicals provide symptom relief for hair loss? A critical reviewDaniels, G., Akram, S., Westgate, Gillian E., Tamburic, S. 22 June 2020 (has links)
No / It is known that hair growth disorders and hair loss can cause personal distress and affect well‐being. Whilst clinical conditions remain a target for medical research, current research on hair follicle biology and hair growth control mechanisms also provides opportunities for a range of non‐medical and cosmetic interventions that have a modulating effect on the scalp and follicle function. Furthermore, an improvement of the hair fibre characteristics (cuticle structure, cortex size and integrity) could add to the overall positive visual effect of the hair array. Since phytochemicals are a popular choice because of their traditional appeal, this review provides a critical evaluation of the available evidence of their activity for hair benefit, excluding data obtained from animal tests, and offers recommendations on improving study validity and the robustness of data collection in pre‐clinical and clinical studies.
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Investigations into the role of cGMP in mediating the effects of extracellular nucleotides on root hair growth in Arabidopsis thalianaSteere, Barbara A. 2009 August 1900 (has links)
The eATP pathway begins a cascade of events which includes the involvement of nitric oxide synthase (NOS) and nitrate reductase (NR) in the production of nitric oxide (NO). Research has shown that SNAP (S-nitroso-N-acetylpenicillamine) and NONOates (diazeniumdiolates) promote the availability of NO and, with the addition of guanylate cyclase, form cyclic guanine monophosphate (cGMP), and root hair growth is promoted. Phosphodiesterases (PDE) break down the cGMP and agents such as IBMX and Viagra inhibit the PDEs thereby inhibiting root hair growth. Several questions remain to be answered. How much cGMP is necessary for the promotion of root hair growth? Is there an optimal concentration of cGMP which stimulates root hair growth, above which is inhibitory, or below which is ineffective? Is there a “non-hydrolyzable analog” of cGMP which is more effective at promoting root hair growth? Is it possible to see inhibition of root hair growth with exposure to a known inhibitor, such as ATPγS, and then reverse the inhibition with a “non-hydrolyzable analog” of cGMP? Answering these
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questions is the substance of this research and the answers will provide direction and understanding to the growth-promoting and regulatory role eATP plays in signal transduction pathways in plants. With the hypothesis asking whether the effects of NO on root hair growth is cGMP-dependent or cGMP-independent we found that there is no consistent concentration of non-hydrolyzable cGMP analog which promotes root hair growth. Additionally we found that the 8-Br-cGMP analog promotes root hair growth more consistently in Arabidopsis thaliana than its counterpart, dibutyryl cGMP. We substantiated previously published results showing an inhibition of root hair growth when root hairs were exposed to high concentrations of ATPγS. Based on these results we believe the promotion of root hair growth in Arabidopsis thaliana to be mediated independently of cGMP. / text
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Dynamics of touch-receptor plasticity in the mammalian peripheral nervous systemClary, Rachel Cecelia January 2020 (has links)
Somatosensory neurons densely innervate skin, our largest sensory organ. Adult skin continually remodels throughout the lifespan to maintain a protective barrier for our bodies. How sensory neurons maintain their peripheral endings in the face of continual turnover of their target tissue is not well understood. To address this gap in knowledge, I analyzed the temporal dynamics and mechanisms of structural plasticity of touch receptors in healthy adult skin. My studies focused on the terminals of Merkel-cell afferents in mouse touch domes. These two-part touch receptors comprise epithelial Merkel cells innervated by branching axons of fast-conducting sensory neurons. I show that Merkel cells and their afferents are structurally plastic over the course of hair growth in adults. These two components simplify during active hair growth, with fewer terminal neurites and fewer Merkel cells per touch dome at this stage compared with other phases of hair growth. Merkel-cell removal was observed with multiple molecular markers. Additionally, mice showed diminished touch-evoked behavior during hair growth compared with follicle quiescence. Next, I showed that Sarm1, a key effector of Wallerian degeneration, is not required for structural plasticity of Merkel cell-neurite complexes in young adulthood. Finally, I developed a technique to perform time-lapse in vivo imaging of identified Merkel cells and afferent terminals over the course of a month. These structures were highly plastic, with afferent terminals undergoing frequent growth and regression, as well as both Merkel cells and terminal branches being added or removed. Together, these studies reveal that peripheral nerve terminals undergo a previously unsuspected amount of structural plasticity in healthy tissue.
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Development of a novel, clinically-relevant model for investigating factors that stimulate human hair growthMiranda, Benjamin H. January 2011 (has links)
Lack of hair due to alopecia or skin grafting procedures causes significant distress due to hair's
role in social and sexual communication. Only limited pharmacological agents are currently
available to stimulate hair growth; their development is hampered by inappropriate model
systems. Most research involves large terminal scalp follicles rather than the clinical targets of
tiny vellus or intermediate follicles.
The overall aim of this thesis was to develop a novel model system based on intermediate hair
follicles. Initially, intermediate follicles from female pre-auricular skin were characterised and
compared to matched terminal follicles. Intermediate follicles were smaller, less pigmented,
shorter and possessed a more 'tubular' bulb morphology than their more 'bulbous' terminal
counterparts. Significant correlations were demonstrated between various hair follicle
measurements and corresponding dermal papilla diameters.
Isolated terminal follicles grew significantly more than intermediate hair follicles in organ
culture for 9 days. Testosterone (10nM), the major regulator of human hair growth, increased
only intermediate follicle growth; the anti-androgen, cyproterone acetate (1¿M), prevented
this stimulation, unlike the 5¿-reductase type 2 inhibitor finasteride (40ng/ml).
Immunohistochemistry demonstrated androgen receptor and 5¿-reductase type 2 proteins in
both follicle types, while quantitative real-time PCR and gene microarray analysis detected
their increased gene expression in intermediate follicles.
Thus, smaller intermediate follicles showed major morphological and gene expression
differences to terminal follicles in vivo and retained significant, biologically-relevant
differences in vitro in organ culture including androgen-responsiveness. Therefore, intermediate hair follicles offer a novel, exciting, more clinically relevant, albeit technically difficult, model for future investigations into hair growth.
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