Alopecia areata investigational assessment guidelines ¿ part ii

Olsen, E.A., Hordinsky, M.K., Price, V.H., Roberts, J.L., Shapiro, J., Canfield, D., Duvic, M., King, L.E. Jr., McMichael, A.J., Randall, Valerie A., Turner, M.L., Sperling, L., Whiting, D.A., Norris, D.

January 2004

No / Alopecia areata is an immunologically mediated disease characterized by extreme variability not only in the time of initial onset of hair loss but in the duration, extent and pattern of hair loss during any given episode of active loss. These variables, as well as the unpredictable nature of spontaneous regrowth and lack of a uniform response to various therapies, has made clinical trials in alopecia areata difficult to plan and implement. In fact, there are currently no drugs FDA-approved specifically for the indication of alopecia areata. To help facilitate well-controlled clinical trials for alopecia areata, this National Alopecia Areata Foundation (NAAF) sponsored subgroup of investigators/clinicians experienced in clinical trials and/or in the clinical care of patients with alopecia areata has outlined some general principles and potential endpoints for clinical studies in alopecia areata. These guidelines build on the Alopecia Areata Investigational Assessment Guidelines published in 1991 which established baseline clinical staging and background information important to gather on any alopecia areata patient involved in clinical research.

Alopecia areata

Hair loss

Clinical trials

Investigational Assessment Guidelines

Selective Biodegradation in Hair Shafts Derived from Archaeological, Forensic and Experimental Contexts

Wilson, Andrew S., Dodson, Hilary I., Pollard, A. Mark, Tobin, Desmond J., Janaway, Robert C.

January 2007

No / Background Hair is degraded by the action of both dermatophytic and nondermatophytic microorganisms. The importance of understanding hair sample condition in archaeological and forensic investigation highlights the need for a detailed knowledge of the sequence of degradation in samples that have been either buried or left exposed at the ground surface. Objectives To investigate the sequence of biodegradative change to human terminal scalp hair from archaeological and forensic contexts. Methods Cut modern scalp hair from three individuals with caucasoid-type hair was inoculated with soil microorganisms through soil burial in the field and under laboratory conditions to produce experimentally degraded samples. The degraded hair fibres were subjected to detailed histological examination using a combination of high-resolution light microscopy, transmission electron microscopy and scanning electron microscopy to investigate the nature and sequence of degradative change to hair structural components. Results/discussion Degradation was found to occur first within the least structurally robust components that afford the least resistance to microbial/chemical attack. The sequence of degradation (most to least-reflecting degree of vulnerability) in the hair cuticle was as follows: (1) intercellular 6-layer (cell membrane complex); (2) endocuticle; (3) cell membrane ß-layers; (4) exocuticle; (5) epicuticle; and (6) A-layer. In the hair cortex this was as follows: (I) intercellular 6-layer (cell membrane complex); (II) cell membrane ß-layers; (III) intermacrofibrillar matrix/nuclear remnants; (IV) microfibrils; (V) intermicrofibrillar matrix; and (VI) pigment granules (the hair fibre component that was the least vulnerable to degradation). Conclusions The selective progress of degradation in the hair shaft has been charted and this provides a basis for further histological work in better understanding the condition of hair fibres derived from archaeological or forensic contexts as well as being relevant to investigation of diseased hair, in particular hair infected by dermatophytes and hair weakened by genetic hair shaft abnormalities.

Dermatology

Melanin

Keratin

Cuticle

Experimental study

Hair

Biodegradation

Bone morphogenetic protein signaling regulates size of hair follicles and modulates the expression of cell cycle-associated genes.

Sharov, A.A., Sharova, T.Y., Mardaryev, Andrei N., Tommasi di Vignano, A., Atoyan, R., Weiner, L., Yang, Shi, Brissette, J.L., Dotto, G.P., Botchkarev, Vladimir A.

January 2006

No / Bone morphogenetic protein (BMP) signaling is involved in the regulation of a large variety of developmental programs, including those controlling organ sizes. Here, we show that transgenic (TG) mice overexpressing the BMP antagonist noggin (promoter, K5) are characterized by a marked increase in size of anagen hair follicles (HFs) and by the replacement of zig-zag and auchen hairs by awl-like hairs, compared with the age-matched WT controls. Markedly enlarged anagen HFs of TG mice show increased proliferation in the matrix and an increased number of hair cortex and medulla cells compared with WT HFs. Microarray and real-time PCR analyses of the laser-captured hair matrix cells show a strong decrease in expression of Cdk inhibitor p27(Kip1) and increased expression of selected cyclins in TG vs. WT mice. Similar to TG mice, p27(Kip1) knockout mice also show an increased size of anagen HFs associated with increased cell proliferation in the hair bulb. Primary epidermal keratinocytes (KC) from TG mice exhibit significantly increased proliferation and decreased p27(Kip1) expression, compared with WT KC. Alternatively, activation of BMP signaling in HaCaT KC induces growth arrest, stimulates p27(Kip1) expression, and positively regulates p27(Kip1) promoter activity, thus further supporting a role of p27(Kip1) in mediating the effects of BMP signaling on HF size. These data suggest that BMP signaling plays an important role in regulating cell proliferation and controls the size of anagen HFs by modulating the expression of cell-cycle-associated genes in hair matrix KC.

Bone morphogenetic protein

BMP

Noggin

proliferation

Skin

Hair follicles

Probable human hair found in a fossil hyaena coprolite from Gladysvale cave, South Africa

Backwell, L., Pickering, R., Brothwell, D.R., Berger, L., Witcomb, M., Martill, D., Penkman, K.E.H., Wilson, Andrew S.

January 2009

No / Until now, the oldest known human hair was from a 9000-year-old South American mummy. Here we report fossil hairs of probable human origin that exceed that age by about 200,000 years. The hairs have been discovered in a brown hyaena (Parahyaena brunnea) coprolite from Gladysvale cave in South Africa. The coprolite is part of a hyaena latrine preserved in calcified cave sediment dated between 195,000 and 257,000 years ago. This find supports the hypothesis that hyaenas accumulated some of the early hominin remains found in cave sites, and provides a new source of information on Pleistocene mammals in the Sterkfontein Valley.

Hyanea coprolites

Gladysvale cave

South Africa

Fossil hair

Mitochondrial function in murine skin epithelium is crucial for hair follicle morphogenesis and epithelial-mesenchymal interactions

Kloepper, J.E., Baris, O.R., Reuter, K., Kobayash, K., Weiland, D., Vidali, S., Tobin, Desmond J., Niemann, C., Wiesner, R.J., Paus, R.

08 1900

No / Here, we studied how epithelial energy metabolism impacts overall skin development by selectively deleting intraepithelial mtDNA in mice by ablating a key maintenance factor (TfamEKO), which induces loss of function of the electron transport chain (ETC). Quantitative (immuno)histomorphometry demonstrated that TfamEKO mice showed significantly reduced hair follicle (HF) density and morphogenesis, fewer intrafollicular keratin15+ epithelial progenitor cells, increased apoptosis, and reduced proliferation. TfamEKO mice also displayed premature entry into (aborted) HF cycling by apoptosis-driven HF regression (catagen). Ultrastructurally, TfamEKO mice exhibited severe HF dystrophy, pigmentary abnormalities, and telogen-like condensed dermal papillae. Epithelial HF progenitor cell differentiation (Plet1, Lrig1 Lef1, and β-catenin), sebaceous gland development (adipophilin, Scd1, and oil red), and key mediators/markers of epithelial–mesenchymal interactions during skin morphogenesis (NCAM, versican, and alkaline phosphatase) were all severely altered in TfamEKO mice. Moreover, the number of mast cells, major histocompatibility complex class II+, or CD11b+ immunocytes in the skin mesenchyme was increased, and essentially no subcutis developed. Therefore, in contrast to their epidermal counterparts, pilosebaceous unit stem cells depend on a functional ETC. Most importantly, our findings point toward a frontier in skin biology: the coupling of HF keratinocyte mitochondrial function with the epithelial–mesenchymal interactions that drive overall development of the skin and its appendages.

Mitochondrial function

Murine skin epithelium

Hair follicles

Morphogenesis

Epithelial-mesenchyma

Human Hair Follicle and Epidermal Melanocytes Exhibit Striking Differences in Their Aging Profile which Involves Catalase.

Kauser, Sobia, Westgate, Gillian E., Green, M.R., Tobin, Desmond J.

January 2011

No / Canities or senile hair graying, a universally recognized sign of aging, remains unresolved in terms of physiological causes, although a strong genetic contribution is understood (Gunn et al., 2009). As the hair fiber continues to grow long after melanin production ceases, we suggest that melanocytes in the hair follicle may be more sensitive to the impact of chronological aging than are keratinocytes. Moreover, follicular melanocytes also age more markedly than those in the overlying epidermis. The hair follicle provides a unique opportunity to decouple the impact of age on two hair follicular tissue functions: hair formation and hair pigmentation. ... This study provides analysis of race, age, and anatomically matched cultures of adult human epidermal and hair follicle melanocytes (HFMs).

Human hair follicles

Age

Aging profiles

Catalase

Melanocytes

Keratinocytes

Photobiomodulation devices for hair regrowth and wound healing: a therapy full of promise but a literature full of confusion.

Mignon, Charles, Botchkareva, Natalia V., Uzunbajakava, N.E., Tobin, Desmond J.

2016 April 1920

Yes / Photobiomodulation is reported to positively influence hair regrowth, wound healing, skin rejuvenation, and psoriasis. Despite rapid translation of this science to commercial therapeutic solutions, significant gaps in our understanding of the underlying processes remain. The aim of this review was to seek greater clarity and rationality specifically for the selection of optical parameters for studies on hair regrowth and wound healing. Our investigation of 90 reports published between 1985-2015 revealed major inconsistencies in optical parameters selected for clinical applications. Moreover, poorly understood photoreceptors expressed in skin such as cytochrome c oxidase, cryptochromes, opsins, may trigger different molecular mechanisms. All this could explain the plethora of reported physiological effects of light. To derive parameters for optimal clinical efficacy of photobiomodulation, we recommend a more rational approach, underpinning clinical studies with research of molecular targets and pathways using well-defined biological model systems enabling easy translation of optical parameters from in vitro to in vivo. Furthermore, special attention needs to be paid when conducting studies for hair regrowth, aiming for double-blind, placebo-controlled randomized clinical trials as the gold standard for quantifying hair growth. / European Marie-Curie Actions Programme, Grant agreement no.: 607886

Photobiology

Cryptochromes

Opsins

Optical parameters

Skin and hair regeneration

Embryology of the Pilosebaceous Unit

Botchkarev, Vladimir A., Fessing, Michael Y.

January 2014

No / In mammals, hairs fulfil a number of important functions including thermoregulation, collecting sensory information, protection against environmental stressors, social communication and mimicry [1]. Hairs are produced by the pilosebaceous unit that consists of the hair follicle and associated structures such as sebaceous gland, perifollicular nerve fibres and arrector pili muscle [1, 2]. In humans, hair follicles are distributed throughout the body with exception of the soles, palm and part of the external genitalia and produce two major hair types (terminal and vellus hairs) that show distinct morphology and distribution patterns [3].

Rosacea

Acne

Treatment

Pilosebaceous unit

Hair follicle

Sebaceous gland

Information on Grauballe man from his hair

Wilson, Andrew S., Richards, Michael P., Stern, Ben, Janaway, Robert C., Pollard, A. Mark, Tobin, Desmond J.

January 2007

No

Grauballe Man

Jutland

Hair

Human remains

Iron Age

Bog bodies

Whole-genome shotgun sequencing of mitochondria from ancient hair shafts

Gilbert, M.T.P., Tomsho, L.P., Rendulic, S., Packard, M., Drautz, D.I., Sher, A., Tikhonov, A., Dalen, L., Kuznetsova, T., Kosintsev, P., Campos, P.F., Higham, T.F.G., Collins, M.J., Wilson, Andrew S., Shidlovskiy, F., Buigues, B., Ericson, P.G., Germonpre, M., Götherström, A., Iacumin, P., Nikolaev, V., Nowak-Kemp, M., Willerslev, E., Knight, J.R., Irzyk, G.P., Perbost, C.S., Fredrikson, K.M., Harkins, T.T., Sheridan, S., Miller, W., Schuster, S.C.

28 September 2007

No / Although the application of sequencing-by-synthesis techniques to DNA extracted from bones has revolutionized the study of ancient DNA, it has been plagued by large fractions of contaminating environmental DNA. The genetic analyses of hair shafts could be a solution: We present 10 previously unexamined Siberian mammoth (Mammuthus primigenius) mitochondrial genomes, sequenced with up to 48-fold coverage. The observed levels of damage-derived sequencing errors were lower than those observed in previously published frozen bone samples, even though one of the specimens was >50,000 14C years old and another had been stored for 200 years at room temperature. The method therefore sets the stage for molecular-genetic analysis of museum collections.

Whole-genome shotgun sequencing

Mitochondria

Hair

Human remains

DNA