Survivin in the human hair follicle

Botchkareva, Natalia V., Ahluwalia, G., Kahn, M., Shander, D.

January 2007

No

Survivin

Hair follicles

Gerontobiology of the Hair Follicle

Tobin, Desmond J.

January 2010

No / The word ¿gerontology¿ is familiar to most of us as a term that captures the study of the social, psychological, and biological aspects of aging. However, its derivative ¿gerontobiology¿ as applied to the hair follicle is more concerned with the latter aspect ¿ the biology of aging in the hair follicle mini-organ. As with any complex multicellular tissue system, the hair follicle is prone to broadly similar underlying processes that determine the functional longevity of organs and tissues. No matter how complex the tissue system is, it will contain cells that eventually lose functionality, reproductive potential and will ultimately die. The hair follicle is somewhat unusual among mammalian tissues in that it is a veritable histologic mélange of multiple cell types (e.g., epithelial, mesenchymal and neuro-ectodermal) that function contemporaneously in all stages of their life histories e.g., stem cells, transit-amplifying cells, and terminally differentiating cells. Some of these interactive cell systems appear to be nonessential for overall hair follicle survival (e.g., melanocytes). However, strikingly graying hair follicles may grow even more vigorously than their pigmented predecessors. Moreover, the hair follicle is unique in the adult mammal in that it follows a tightly regulated script of multiple lifelong cycles of cellular birth, proliferation, differentiation, and death. Powerful evolutionary selection ensures that the hair follicle is, in the main, hardwired against significant aging-related loss of function, even after 12 or more decades of life ¿ although some would argue with this view, if only on purely cosmetic grounds. Processes underlying aging in general, e.g., oxidative damage, telomere shortening, age-relating deficiencies related to nuclear/mitochondrial DNA damage and repair as well as age-related reductions in the cells¿ energy supply, will all impact on whether some follicular cell subpopulations will enter cellular senescence. This chapter will focus on how gerontobiology of the hair follicle may impact on certain aspects of hair fiber phenotype.

Gerontobiology

Hair Follicle

Desmoplastic melanoma presenting with localized hair repigmentation

Rahim, R.R., Husain, A., Tobin, Desmond J., Lawrence, C.M.

January 2013

No / Hair repigmentation is a rare event. Generalized repigmentation of age-related grey or white hair has been reported after inflammatory processes; patchy repigmentation is even more unusual. We report an 82-year-old woman who developed a patch of pigmented hair arising within an underlying solar lentigo within her uniformly grey hair. Two years later this progressed into a desmoplastic melanoma with associated lentigo maligna-like epidermal changes.

Hair repigmentation

Case study

The biology of hair diversity.

Westgate, Gillian E., Botchkareva, Natalia V., Tobin, Desmond J.

January 2013

No / Hair diversity, its style, colour, shape and growth pattern is one of our most defining characteristics. The natural versus temporary style is influenced by what happens to our hair during our lifetime, such as genetic hair loss, sudden hair shedding, greying and pathological hair loss in the various forms of alopecia because of genetics, illness or medication. Despite the size and global value of the hair care market, our knowledge of what controls the innate and within-lifetime characteristics of hair diversity remains poorly understood. In the last decade, drivers of knowledge have moved into the arena of genetics where hair traits are obvious and measurable and genetic polymorphisms are being found that raise valuable questions about the biology of hair growth. The recent discovery that the gene for trichohyalin contributes to hair shape comes as no surprise to the hair biologists who have believed for 100 years that hair shape is linked to the structure and function of the inner root sheath. Further conundrums awaiting elucidation include the polymorphisms in the androgen receptor (AR) described in male pattern alopecia whose location on the X chromosome places this genetic contributor into the female line. The genetics of female hair loss is less clear with polymorphisms in the AR not associated with female pattern hair loss. Lifestyle choices are also implicated in hair diversity. Greying, which also has a strong genetic component, is often suggested to have a lifestyle (stress) influence and hair follicle melanocytes show declining antioxidant protection with age and lowered resistance to stress. It is likely that hair research will undergo a renaissance on the back of the rising information from genetic studies as well as the latest contributions from the field of epigenetics.

Alopecia

Curly hair

Genetic polymorphisms in hair

Hair follicle

Hair pigmentation and greying

Pathobiology of chemotherapy-induced hair loss.

Paus, R., Haslam, I.S., Sharov, A.A., Botchkarev, Vladimir A.

January 2013

No / Hair loss can be a psychologically devastating adverse effect of chemotherapy, but satisfactory management strategies for chemotherapy-induced alopecia remain elusive. In this Review we focus on the complex pathobiology of this side-effect. We discuss the clinical features and current management approaches, then draw upon evidence from mouse models and human hair-follicle organ-culture studies to explore the main pathobiology principles and explain why chemotherapy-induced alopecia is so challenging to manage. P53-dependent apoptosis of hair-matrix keratinocytes and chemotherapy-induced hair-cycle abnormalities, driven by the dystrophic anagen or dystrophic catagen pathway, play important parts in the degree of hair-follicle damage, alopecia phenotype, and hair-regrowth pattern. Additionally, the degree of hair-follicle stem-cell damage determines whether chemotherapy-induced alopecia is reversible. We highlight the need for carefully designed preclinical research models to generate novel, clinically relevant pointers to how this condition may be overcome.

Hair loss

Chemotherapy

Alopecia

Survival and alteration - experiments in hair degradation

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

January 2003

No

Hair

Degradation

Human remains

Yesterday's hair--human hair in archaeology

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

10 1900

No / Hair removed from archaeological burials can tell us a lot about the diet and lifestyle of our ancestors--information that may survive because of the unique biology of hair formation. But hair is also biodegradable and the effects of time and burial conditions can result in conflicting evidence of past lives.

Hair

Human remains

Hair Degradation

Wilson, Andrew S.

January 2000

No

Hair

Degradation

Human remains

Development of a novel, clinically-relevant model for investigating factors that stimulate human hair growth

Miranda, Benjamin H.

January 2011

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 (1μM), prevented this stimulation, unlike the 5α-reductase type 2 inhibitor finasteride (40ng/ml). Immunohistochemistry demonstrated androgen receptor and 5α-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.

612.7

Efeito de uma formulação contendo o biopolímero quitosana sobre a fibra capilar caucasiana / Study of a formulation contend bio-polymer chitosan on the caucasian hair fiber

Colenci, Ana Vivian Parrelli

20 September 2007

Há um número crescente de indústrias no ramo de cosméticos atualmente, devido ao fato das pessoas se preocuparem mais com suas aparências e ansiarem por produtos de qualidade. Em decorrência desse fato as indústrias vêem investindo cada vez mais nas áreas de pesquisas e desenvolvendo tecnologia neste segmento. Este trabalho visa o estudo das fibras capilares e a interação das mesmas com uma formulação comercial contendo como ativo principal o biopolímero quitosana. Utilizou-se para tanto técnicas como microscopia eletrônica de varredura, microscopia ótica, microscopia de força atômica, análises térmicas (TG/DSC) e análise de espectroscopia de absorção na região do infravermelho. O estudo foi feito com cabelos caucasianos virgens (sem tratamento químico) e em cabelos caucasianos descoloridos. Os resultados evidenciaram melhorias na estrutura da fibra capilar. Pode-se também levantar dados como a rugosidade e a área cuticular da fibra, através desses dados verificou-se que a rugosidade na fibra capilar diminui e a área cuticular aumentou com o uso do produto. Foi observado também através da análise de infravermelho a presença da quitosana na fibra capilar. / Currently exists an increasing number of companies on the cosmetic market, due to the fact that people worry more about appearance and (to) desire (for) quality products. As a result the companies are investing more in this area and developing new technologies. The purpose of this work is to study hair fibers and their interaction with a commercial product containing chitosan which is the main ingredient in the formula of Kit Bio Film® Tânagra and techniques were used, such as MEV, optic microscopy, AFM, thermal analysis (TG/DSC) and infrared absorption spectroscopy. This study was realized with caucasian virgin hair (without any chemical process) and with caucasian uncolored hair. In all analyses improvement of the hair fiber structure was observed. Also observed data such as roughness and cuticle size showed an increase in roughness and a decrease of cuticle size.The presence of chitosan in the hair fiber was also observed by infrared analysis.

Chitosan

Fibra capilar

Hair fiber

Hair structure

Quitosana

Reestruturação capilar