Sparse and wavy hair: a new model for hypoplasia of hair follicle and mammary glands on rat chromosome 17

Mutant animals in the skin and hair have been used to identify important genes in biomedical research. We describe a new mutant rat, sparse and wavy hair (swh), that spontaneously arose in a colony of inbred WTC rats. The mutant phenotype was characterized by sparse and wavy hair, which was most prominent at age 3-4 weeks, and was inherited in an autosomal recessive manner. The swh/swh rats showed impaired gain of body weight, and their hair follicles were reduced both in number and size, associated with hypoplasia of the sebaceous glands and the subcutaneous fat tissue. Female swh/swh rats were unable to suckle their offspring. Their mammary glands were hypoplastic, and differentiation of mammary epithelial and myoepithelial cells was impaired. Linkage analysis of 579 backcross rats localized the swh locus to a .35-cM region between D17Rat131 and D17Rat50 in the distal end of rat Chr 17. The swh locus spanned the 3.7-Mb genomic region where 24 genes have been mapped and corresponded to the centromere region of the mouse Chr 2 or the region of the human Chr 10p11.1-p14. None of the genes or loci described in mouse or human hair and skin diseases mapped to these regions. These findings suggest that the rat swh is a novel mutation associated with impaired development of the skin appendages, such as hair follicles, sebaceous glands, and mammary glands, and will provide an experimental model to clarify a gene and mechanisms for development of skin appendages.     

Inherited seborrheic dermatitis--a new mutant in mice

A new mutation, affecting skin and hair, occurred in an expansion colony of Him:OF1 mice. Test crosses showed that a single autosomal recessive gene was responsible for this trait. Homozygotes have sparse greasy fur and lower viability and fertility than normal littermates. Histological observations showed hypertrophy of sebaceous glands, hyperkeratosis, parakeratosis, acanthosis and signs of inflammation. The disease was named 'inherited seborrheic dermatitis' and the gene name seb is proposed.     

Red-eyed dilution (rd), a novel coat-color mutant gene in the musk shrew (Suncus murinus, Insectivora).

A novel coat-color mutant was found in the musk shrew (Suncus murinus). Mutant shrews were characterized by light-gray coat, pinkish skin and red eyes. Mating experiment demonstrated that the mutant character was controlled by a single autosomal recessive gene. The gene could be traced back to at least four heterozygous carriers captured in Naha city, Okinawa in 1983. The name, red-eyed dilution, was proposed for this mutant character with the gene symbol rd. Linkage analysis proved no close relationship of the rd locus with the cr (cream coat color) and ch (curly hair) loci. The red-eyed dilution shrews (+/+, rd/rd) could easily be distinguished from the cream coat shrews with dark-red eyes (cr/cr, +/+) and the double homozygotes exhibiting light-cream coat with pink eyes (cr/cr, rd/rd). The rd gene has been maintained in the OKI line about at 75% of its frequency in every generation. We have started to develop a new line triple-homozygous for the cr, ch and rd genes.     

Rac1 is crucial for hair follicle integrity but is not essential for maintenance of the epidermis

Rac1 is a small GTPase that regulates the actin cytoskeleton but also other cellular processes. To investigate the function of Rac1 in skin, we generated mice with a keratinocyte-restricted deletion of the rac1 gene. Rac1-deficient mice lost nearly all of their hair within a few weeks after birth. The nonpermanent part of mutant hair follicles developed constrictions; lost expression of hair follicle-specific keratins, E-cadherin, and alpha6 integrin; and was eventually removed by macrophages. The permanent part of hair follicles and the sebaceous glands were maintained, but no regrowth of full-length hair follicles was observed. In the skin of mutant mice, epidermal keratinocytes showed normal differentiation, proliferation, cell-cell contacts, and basement membrane deposition, demonstrating no obvious defects of Rac1-deficient epidermis in vivo. In vitro, Rac1-null keratinocytes displayed a strong spreading defect and slightly impaired adhesion. These data show that Rac1 plays an important role in sustaining the integrity of the lower part of hair follicles but not in maintenance of the epidermis.     

Localization of TIMP in cycling mouse hair

TIMP (tissue inhibitor of metalloproteinase) is a glycoprotein inhibitor of metalloproteinases that we hypothesize to be involved in the tissue remodeling that occurs during each hair growth cycle. We examined this hypothesis by studying the expression of TIMP at selected times during a single hair cycle using TIMP-lacZ transgenic mice to localize TIMP gene activity in the hair follicle. TIMP gene induction was visualized by staining mouse back skin for beta-galactosidase (beta-gal) activity. Paraffin sections were analyzed for the localization of TIMP expression. TIMP gene activation appears in hair follicles only during the mid-anagen (the growing stage of the hair cycle) primarily in Henle's layer of the inner root sheath. Some expression of TIMP is also seen in a few connective tissue cells, in the sebaceous gland and in cells at the proximity of the dermal papilla cells in catagen (regressing) and telogen (resting) follicles. These results are consistent with a role for TIMP in cyclic remodeling of connective tissue in hair follicles.     

FGF5在青年羊驼背部和耳部皮肤中的表达和定位

羊驼是毛用型经济动物,其耳部和背部的毛发品质和生长周期存在差异. 据研究成纤维细胞生长因子5（fibroblast growth factor 5, FGF5）在多种哺乳动物中影响毛发长度. FGF5基因的突变导致小鼠、狗和猫隐性的长发表型,其也参与了家兔绒毛长度的变异. 本实验旨在研究FGF5在青年羊驼皮肤中的表达和定位,以及在羊驼背部和耳部皮肤中的差异比较,探讨其在羊驼毛发生长发育过程中的作用及其相关机制. 实验采用实时荧光定量PCR、Western印迹和免疫组织化学等技术,对FGF5在青年羊驼背部和耳部皮肤中的mRNA、蛋白表达水平和定位进行了研究. 实时荧光定量PCR结果显示,FGF5在青年羊驼耳部皮肤组织中相对基因表达量是羊驼背部皮肤组织的25265倍(P<001); Western印迹结果显示,羊驼皮肤组织粗蛋白提取物中存在与兔抗FGF5多克隆抗体发生免疫阳性反应的蛋白条带,羊驼耳部皮肤平均蛋白表达量显著高于背部;免疫组织化学结果显示,FGF5在羊驼皮肤的毛根鞘,毛母质细胞和毛髓质等部位均表达,根据光密度值得出,该蛋白在羊驼背部和耳部皮肤中的表达差异极显著（P<001）. 试验结果提示FGF5可能抑制了羊驼毛发的生长.     

Curly bare (cub), a new mouse mutation on chromosome 11 causing skin and hair abnormalities,and a modifier gene (mcub) on chromosome 5

In the outcrossing of a new recessive mouse mutation causing hair loss, a new wavy-coated phenotype appeared. The two distinct phenotypes were shown to be alternative manifestations of the same gene mutation and attributable to a single modifier locus. The new mutation, curly bare (cub), was mapped to distal Chr 11 and the modifier (mcub) was mapped to Chr 5. When homozygous for the recessive mcub allele, cub/cub mice appear hairless. A single copy of the dominant Mcub allele confers a full, curly coat in cub/cub mice. Reciprocal transfer of full-thickness skin grafts between mutant and control animals showed that the skin phenotype was tissue autonomous. The hairless cub/cub mcub/mcub mice show normal contact sensitivity responses to oxazolone. The similarity of the wavy coat phenotype to those of Tgfa and Egfr mutations and the map positions of cub and mcub suggest candidate genes that interact in the EGF receptor signal transduction pathway.     

Expression of a dominant negative mutant of epidermal growth factor receptor in the epidermis of transgenic mice elicits striking alterations in hair follicle development and skin structure.

Epidermal growth factor receptor (EGFR) is a key regulator of keratinocyte biology. However, the physiological role of EGFR in vivo has not been well established. To analyze the role of EGFR in skin, we have generated transgenic mice expressing an EGFR dominant negative mutant in the basal layer of epidermis and outer root sheath of hair follicles. Mice expressing the mutant receptor display short and waved pelage hair and curly whiskers during the first weeks of age, but subsequently pelage and vibrissa hairs become progressively sparser and atrophic. Eventually, most mice present severe alopecia. Histological examination of the skin of transgenic mice shows striking alterations in the development of hair follicles, which fail to enter into catagen stage. These alterations eventually lead to necrosis and disappearance of the follicles, accompanied by strong infiltration of the skin with inflammatory elements. The interfollicular epidermis of these mice shows marked hyperplasia, expression of hyperproliferation-associated keratin K6 and increased 5-bromo-2-deoxyuridine incorporation. EGFR function was inhibited in transgenic skin keratinocytes, since in vivo and in vitro autophosphorylation of EGFR was almost completely abolished on EGF stimulation. These results implicate EGFR in the control of hair cycle progression, and provide new information about its role in epidermal growth and differentiation.     

Amelioration by copper supplementation of mutant gene effects in the crinkled mouse.

The possibility of a relationship between the autosomal recessive mutant gene crinkled in mice and copper metabolism was investigated by examining the effect of copper supplementation during pregnancy and lactation on the expression of the gene in homozygous mutant young. Survival of mutant mice to 30 days of age was doubled by feeding their mothers a high copper diet (500 ppm copper) during pregnancy and lactation, as compared with controls (6-11 ppm dietary copper). High dietary copper also prevented the lag in pigment development characteristic of the mutants. Furthermore, skin and epidermal thickness and hair bulb development were nearly normal in the high copper group, in contrast to thin skin and paucity of hairs in controls. Supplementation with manganese did not have these effects. Scanning electron micrographs showed the presence of three types of hair abnormalities in crinkled mutants, monilethrix, pili torti, and possibly trichorrhexis nodosa. The results show that increased availability of copper favorably altered the expression of the mutant gene, and demonstrate the interaction of a gene and a trace metal in development.     

Characteristics of a new hairless mutation (bald) in rats

Hereditarily hairless rats have been maintained by sibmatings since 1973. These animals were termed "bald rats", and examined for their characteristics on genetics, physiological, hematological and clinical chemistry values and histology. The bald rats began to lose their hair at approximately three weeks of age. At five weeks of age, the skin was devoid of all general body hair except for the vibrissae, and the skin became wrinkled at two months of age. Histologically, follicular cysts were observed in a large number, from three months of age onward. The bald condition was a simple recessive character (ba); homozygous animals lost hair and heterozygous ones did not. The bald females attained sexual maturity around eight weeks of age and littered normally, but failed to nurse their young. The incapability of supplying sufficient milk supposedly resulted from the mammary glands that involuted after delivery. The bald animals consumed more food but showed lower values for body weights, plasma triglyceride, and epididymal adipose tissue amount than the haired animals. In addition, the bald males had brown adipose tissue in the interscapulum which was histologically activated as in newborn animals. Aged bald animals showed spontaneous tumors of the thymus, pituitary, testis, uterus, mammary gland, and skin. The incidence of skin tumors was much higher than those of tumors of other origins.     

Analysis of the effects of mutant hairless genes in chimeric mice

The autosomal recessive gene hairless (hr) is responsible for the complete hairlessness in mice homozygous for this gene. Hair shedding that begins at the age of 10 days is caused by an abnormal cycle of hair follicle development disturbed at the catagen stage. This results in enhanced programmed cell death (apoptosis) and ultimately leads to the complete hair follicle destruction and shedding of all hairs by the age of three weeks. To study the phenotypic expression of the hr gene in a chimeric organism, we have obtained 12 chimeric mice hr/hr <--> +/+ by means of aggregation of early embryos hr/hr and +/+. In chimeric mice, the hair shedding has begun two days later than in the hr/hr mice. By day 23 of postnatal development, hairless areas were present on the coat of chimeric mice or the latter were completely hairless depending on the percentage of the hr/hr mutant component. In four chimeras with high content of the mutant component (68-76%), the hair shedding process was similar to that in the hr/hr mice, though it was accomplished two days later. In three chimeras with 48-51% of the mutant component, alternating hairless and hair-covered bands were observed. These data suggest that the hr gene acts in epidermal cells of a hair follicle, because epidermal cell clones in embryonic skin migrate in the lateral-ventral direction coherently and without mixing. However, some chimeras displayed a pattern which was not so clear-cut: the band borders were illegible and hairs partly covered the hairless areas. In some chimeras, the uniform thinning of the coat was observed. Analysis of the effects of the hr mutant gene in chimeric mice differing in the ratio between mutant (hr/hr) and normal (+/+) components in tissues suggests that the hr gene acts in the epidermal cells of the hair follicle. The interactions between cells have an essential effect on the mode and degree of the hr gene expression, which leads to distortion of the "ectodermal" coat pattern in chimeras.     

Intragenic deletion in the Desmoglein 4 gene underlies the skin phenotype in the Iffa Credo "hairless" rat

The Iffa Credo (IC) "hairless" rat is an autosomal recessive hypotrichotic animal model actively used in pharmacological and dermatological studies. Although the molecular basis of the IC rat phenotype was never defined, the designation "hr/hr" (hairless) has been used for this rat mutation. Despite the observation that IC rats share many phenotypic similarities with Charles River (CR) 'hairless rats', crossbreeding between CR and IC rats indicated that these mutations are not allelic, and moreover, genetic analysis of both CR and IC hairless mutant rats showed no mutations in the hr gene. Here, we present a detailed analysis of the skin phenotype in the IC rat. While the initial stages of hair follicle (HF) morphogenesis reveal no significant abnormalities, the subsequent processes of inner root sheath and hair shaft formation are severely disturbed due to impaired proliferation in the hair matrix and abnormal differentiation in the precortex zone. This results in significant reduction of hair bulb volume, and the formation of dysmorphic "blebbed" hair shafts lacking medullar structure and resembling "lanceolate" hairs. Based on the presence of lance-head hairs typical of rodent lanceolate mutants, we performed molecular analysis of the desmoglein 4 gene and found a large intragenic deletion encompassing nine exons of the gene. This finding, together with specific morphological features of skin and hairs, confirms that the IC rat is allelic with the lanceolate hair (lah) mutations in mice and rats. Our results elucidate the genetic and morphological basis of the IC rat mutation, thus providing a new model to study molecular mechanisms of hair growth control.     

Circling mouse, a spontaneous mutant in the inner ear.

A spontaneous mutant was established in the ICR mouse strain. The affected mice became hyperactive at about 7 days of age, and then showed circling behavior. The body weight decreased significantly 2 weeks after birth, and developmental defects were revealed in the middle ear, cochlea, cochlear nerve, and semicircular canal areas. The mutation was inherited by an autosomal single recessive gene and is referred to as cir.     

Recessive yellow in the Mongolian gerbil (Meriones unguiculatus)

A new autosomal recessive coat color mutant in the Mongolian gerbil (Meriones unguiculatus) is described: recessive yellow. On the dorsal side the mutant has a rich yellow to ginger color. Ventrally it shows the typical creamy white belly of a wild-type Mongolian gerbil. The dorsal yellow hairs have short black tips, and a light olive green base. A clear demarcation line between dorsal and ventral color is present. Crosses between recessive yellow animals and multiple homozygous recessive tester animals (a/a; c^chm/c^chm; g/g; p/p) resulted only in animals of an agouti (wild-type) phenotype, showing that the new allele is not allelic with any of the known coat color mutations in the Mongolian gerbil. Molecular studies showed that the new mutant is caused by a missence mutation at the extension (E) locus. On a non-agouti background (a/a; e/e) mutant animals look like a dark wild-type agouti. In contrast to wild-type agouti it shows yellow pigmentation and dark ticking at the ventral side, resulting in the absence of a demarcation line. Since black pigment is present in both the agouti and non-agouti variant (A/A; e/e and a/a; e/e), we conclude that recessive yellow in the Mongolian gerbil is non-epistatic to agouti. Additionally we describe a second mutation at the same locus leading to a similar phenotype, however without black pigment and diminishing yellow pigment during life. Fertility and viability of both new mutants are within normal range. The extension (E) gene is known to encode the melanocortin 1 receptor (MC1R). Interestingly, this is the only gene that is known to account for substantial variation in skin and hair color in humans. Many different mutations are known of which some are associated with higher skin cancer incidence.     

Extra-large Tribolium confusum: a new autosomal recessive mutant.

A new mutant of Tribolium confusum Jacquelin duVal (Coleoptera: Tenebrionidae), extra-large (designated xl), was isolated in mating competition tests with red-eye (re) and wild-type (+). Crosses showed that it was autosomal recessive gene with subvital effects. The pupal weights averaged 6.1 and 7.3 mg for males and females, respectively, about twice the weights of the ancestral wild-type. The generation time (egg to adult) was approximately 8 to 9 weeks compared with about 4 weeks for the wild-type. This increase resulted from a lengthening of the larval stage since the durations of the egg and pupal stages were within the ranges of the wild-type. Mean longivity of xl males and females was reduced to 8.5 and 6.0 weeks, respectively at 26.7 +/- 1 degree C and 60% RH.     

A novel serine protease overexpressed in the hair follicles of nude mice.

We have studied changes in gene expression between normal and nude mouse skin. Using the method of representational difference analysis, a cDNA encoding a novel serine protease designated BSSP was cloned. Our results show that in skin this gene is predominantly expressed in the sebaceous gland of the hair follicle and in the distal part of the outer root sheath. Thus, BSSP is the first serine protease known to be expressed in the sebaceous gland. In nude mouse skin, this gene is overexpressed.     

A novel mutant mouse, joggle, with inherited ataxia.

While establishing a new mouse strain, we discovered a novel mutant mouse that exhibited ataxia. Mating experiments showed that the mutant phenotype was due to a single autosomal recessive gene, which we have termed joggle (gene symbol: jog). The ataxia becomes apparent around postnatal day 12, when the mice first attempt to walk, and worsens thereafter. The life span of the mutant mouse is comparable to that of the wild-type mouse. After 21 days of age, the cerebellum weights of the jog/jog mice are significantly lower than those of the wild-type mice. These observations indicate that jog/jog mutant mice could be useful models for biomedical research.     

Role for ELOVL3 and fatty acid chain length in development of hair and skin function

Very little is known about the in vivo regulation of mammalian fatty acid chain elongation enzymes as well as the role of specific fatty acid chain length in cellular responses and developmental processes. Here, we report that the Elovl3 gene product, which belongs to a highly conserved family of microsomal enzymes involved in the formation of very long chain fatty acids, revealed a distinct expression in the skin that was restricted to the sebaceous glands and the epithelial cells of the hair follicles. By disruption of the Elovl3 gene by homologous recombination in mouse, we show that ELOVL3 participates in the formation of specific neutral lipids that are necessary for the function of the skin. The Elovl3-ablated mice displayed a sparse hair coat, the pilosebaceous system was hyperplastic, and the hair lipid content was disturbed with exceptionally high levels of eicosenoic acid (20:1). This was most prominent within the triglyceride fraction where fatty acids longer than 20 carbon atoms were almost undetectable. A functional consequence of this is that Elovl3-ablated mice exhibited a severe defect in water repulsion and increased trans-epidermal water loss.     

The role of fibroblast growth factor receptor 2b in skin homeostasis and cancer development

The epithelial isoform of fibroblast growth factor receptor 2 (Fgfr2b) is essential for embryogenesis, and Fgfr2b-null mice die at birth. Using Cre-Lox transgenics to delete Fgfr2b in cells expressing keratin 5, we show that mice lacking epidermal Fgfr2b survive into adulthood but display striking abnormalities in hair and sebaceous gland development. Epidermal hyperthickening develops with age, and 10% of mutant mice develop spontaneous papillomas, demonstrating the role of Fgfr2b in post-natal skin development and in adult skin homeostasis. Mice lacking epithelial Fgfr2b show great sensitivity to chemical carcinogenic insult, displaying several oncogenic ha-ras mutations with dramatic development of papillomas and squamous cell carcinomas. Mutant mice have increased inflammation in the skin, with increased numbers of macrophages and gammadeltaT cells with abnormal morphology. Mutant skin shows several changes in gene expression, including enhanced expression of the pro-inflammatory cytokine interleukin 18 and decreased expression of Serpin a3b, a potential tumor suppressor. Thus we describe a novel role of Fgfr2b and provide the first evidence of a tyrosine kinase receptor playing a tumor suppressive role in the skin.