A tandem of SH3-like domains participates in RNA binding in KIN17, a human protein activated in response to genotoxics.

The human KIN17 protein is an essential nuclear protein conserved from yeast to human and expressed ubiquitously in mammals. Suppression of Rts2, the yeast equivalent of gene KIN17, renders the cells unviable, and silencing the human KIN17 gene slows cell growth dramatically. Moreover, the human gene KIN17 is up-regulated following exposure to ionizing radiations and UV light, depending on the integrity of the human global genome repair machinery.

KIN17 encodes an RNA-binding protein and is expressed during mouse spermatogenesis.

Genotoxic agents deform DNA structure thus eliciting a complex genetic response allowing recovery and cell survival. The Kin17 gene is up-regulated during this response. This gene encodes a conserved nuclear protein that shares a DNA-binding domain with the bacterial RecA protein.

Global genome repair is required to activate KIN17, a UVC-responsive gene involved in DNA replication.

UV light provokes DNA lesions that interfere with replication and transcription. These lesions may compromise cell viability and usually are removed by nucleotide excision repair (NER). In humans, inactivation of NER is associated with three rare autosomal recessive inherited disorders: xeroderma pigmentosum (XP), Cockayne syndrome, and trichothiodystrophy.

Identification of KIN (KIN17), a human gene encoding a nuclear DNA-binding protein, as a novel component of the TP53-independent response to ionizing radiation.

Ionizing radiation elicits a genetic response in human cells that allows cell survival. The human KIN (also known as KIN17) gene encodes a 45-kDa nuclear DNA-binding protein that participates in the response to UVC radiation and is immunologically related to the bacterial RecA protein. We report for the first time that ionizing radiation and bleomycin, a radiomimetic drug, which produce single- and double-strand breaks, increased expression of KIN in human cells established from tumors, including MeWo melanoma, MCF7 breast adenocarcinoma, and ATM+ GM3657 lymphoblast cells.

Regulatory influence of germ cells on sertoli cell function in the pre-pubertal rat after acute irradiation of the testis.

While germ cell regulation of Sertoli cells has been extensively explored in adult rats in vivo, in contrast, very little is known about germ cell influence on Sertoli cell function at the time when spermatogenesis begins and develops. In the present study various Sertoli cell parameters (number, testicular androgen binding protein (ABP) and testin, serum inhibin-B and, indirectly, follicle-stimulating hormone (FSH)) were investigated after the exposure of 19-day-old rats to a low dose of 3 Grays of gamma-rays. Differentiated spermatogonia were the primary testicular targets of the gamma-rays, which resulted in progressive maturation depletion, sequentially and reversibly affecting all germ cell classes.

Molecular cloning and characterization of the human KIN17 cDNA encoding a component of the UVC response that is conserved among metazoans.

We describe the cloning and characterization of the human KIN17 cDNA encoding a 45 kDa zinc finger nuclear protein. Previous reports indicated that mouse kin17 protein may play a role in illegitimate recombination and in gene regulation. Furthermore, overproduction of mouse kin17 protein inhibits the growth of mammalian cells, particularly the proliferation of human tumour-derived cells.

Short term pretreatment with medroxyprogesterone and testosterone may potentiate irradiation damage to spermatogenesis in rats.

Background: Hormonal treatments lasting 2-6 months inhibit spermatogenesis in men and have been proposed as germ cell protection against anticancer therapy. Because it is unthinkable to delay anticancer treatments, the authors investigated the protection afforded against irradiation of rats by 22 days of hormonal pretreatment.

Methods: Adult Sprague-Dawley rats were assigned to an untreated control group (C) or to one of 5 treatments: medroxyprogesterone acetate plus testosterone only (M), 3 or 5 gray of irradiation (R3 and R5), or hormonal treatment prior to 3 or 5 gray of irradiation (MR3 and MR5).

The nuclear concentration of kin17, a mouse protein that binds to curved DNA, increases during cell proliferation and after UV irradiation.

UV-irradiation induces, in mammalian cells, the expression of a set of genes known as the 'UV-response', which may be reminiscent of the bacterial response, called SOS system. The multifunctional protein RecA controls the expression of the SOS genes. We report the expression profile of a mouse gene conserved among mammals, called Kin17, that codes a DNA-binding protein of undetermined biochemical activity and which shares epitopes with the bacterial RecA protein.

Overexpression of kin17 protein forms intranuclear foci in mammalian cells.

We used antibodies against E coli RecA protein to identify in mouse cells a 45-kDa DNA-binding protein called kin17, which has an active zinc finger and a nuclear localisation signal. Kin17 protein produced in E coli binds preferentially to the curved DNA of a bacterial promoter in vivo and in vitro, suggesting a transcriptional regulation activity. The fact that in rodent cells kin17 protein levels increase after gamma-irradiation suggests its participation in a cellular response to ionising radiation.

Lead affects steroidogenesis in rat Leydig cells in vivo and in vitro.

Lead is known to impede the male reproductive function, however, the mechanisms through which the adverse effects are mediated are not clearly elucidated. In order to get insight into those mechanisms, we have examined the effects of lead on the biosynthesis of steroid hormones by Leydig cells in the rat. To determine whether lead has a direct action on Leydig cells, we have compared the concentrations of testosterone secreted by Leydig cells in ex vivo experiments after animals had been injected with high doses of lead and in vitro experiments with Leydig cells from normal rats maintained in culture in presence or absence of lead.

Reproductive toxicity of chronic lead exposure in male and female mice.

The reproductive toxicity of lead was investigated in NMRI mice exposed to 0.5% lead acetate in drinking water from day 1 of intra-uterine life until 60 days after birth. Compared with control mice, the weights of lead-exposed fetuses and subsequently of the lead-exposed weaned pups, male and female, diminished by 11 and 13% respectively.

Impairment of testicular endocrine function after lead intoxication in the adult rat.

To clarify the mechanism of the action of lead on male reproductive function, adult male rats were injected intraperitoneally (i.p.) with lead acetate (8 mg/kg/day of lead), 5 days a week for 35 days.

Effects of lead poisoning of rats during pregnancy on the reproductive system and fertility of their offspring.

1. The effects of lead poisoning during pregnancy were tested on female Sprague-Dawley rats that inhaled 5 mg m-3 lead oxide for 13 days during gestation. At the end of gestation, the respective blood lead levels of dams and fetuses were 71.

Effect of ingestion and inhalation of lead on the reproductive system and fertility of adult male rats and their progeny.

Ninety-day-old Sprague-Dawley rats were intoxicated for 70 d with lead, given either as 0.3% lead acetate in drinking water or by inhalation as 5 mg m-3 lead oxide. Direct or transmitted lead toxicity for the male reproductive system was assessed in the rats and their offspring from pituitary and genital organ weights after exposure, the numbers of Sertoli and germ cells, the number, motility and morphology of epididymal spermatozoa, the levels of plasma testosterone, LH and FSH and fertility tests.

Effect of an acute exposure of rat testes to gamma rays on germ cells and on Sertoli and Leydig cell functions.

Germ cells and Sertoli and Leydig cell functions were studied from 7 to 180 days after an acute exposure of 2-month-old rat testes to 9 Gy of gamma rays. Body weight, testis and epididymal weights were recorded. Sertoli cell parameters (androgen-binding protein, ABP, in caput epididymis and plasma follicle stimulating hormone, FSH) and Leydig cell parameters (plasma luteinizing hormone, LH, testosterone and prostate and seminal vesicle weights) were determined together with the number of germ cells and Sertoli cells.

Assessment of testicular function after acute and chronic irradiation: further evidence for an influence of late spermatids on Sertoli cell function in the adult rat.

To study cell to cell communications within the testis of adult Sprague-Dawley rats, we used acute whole body neutron plus gamma-irradiation (0.99 Gray of neutron and 0.24 Gray of gamma-rays, 3 min; Exp A) over 7-121 days postirradiation and chronic whole body gamma-irradiation (7 cGy/day 60Co gamma-rays; Exp B) over 14-84 days of irradiation and 7-86 days postirradiation.

Changes in androgen binding protein (ABP) production following continuous low dose gamma irradiation (IR) of adult rat.

Continuous low dose gamma irradiation induces a progressive degeneration of germ cells with a concomittant increase in blood FSH; however, the Sertoli cell function is not too much altered since serum ABP level is normal and it is likely that the decrease of epididymal ABP content is the consequence of a reduction in seminiferous tubule fluid excretion. Obviously, spermatids seems to be involved in the regulation of Sertoli cell ABP synthesis.

Influence of germ cells upon Sertoli cells during continuous low-dose rate gamma-irradiation of adult rats.

The effects of continuous gamma-irradiation of adult rats at two low-dose rates (7 cGy and 12 cGy/day; up to a total dose of 9.1 Gy and 10.69 Gy 60Co gamma-ray, respectively) were investigated.

Effect of continuous low-dose gamma-irradiation on rat Sertoli cell function.

Continuous low-dose gamma-irradiation of mature rats induced a progressive degeneration of the germ cells. Blood FSH increased by 127, 176 and 214%, respectively, after 55, 70 and 85 days of treatment when compared to FSH levels in control rats (8.50 +/- 0.

Studies of long-term continuous irradiations using daily doses ranging from 0.07 to 0.30 Gy on the B lymphoid system of the rat.

The effects of a continuous exposure to cobalt gamma rays administered to rats at a daily dose of 0, 0.07, 0.12, 0.

Endocrinological and histological changes induced by continuous low dose gamma-irradiation of the rat testis.

Young adult Sprague-Dawley rats were continuously whole-body irradiated with gamma rays at a dose-rate of 7 cGy/day for 92 days. Plasma LH, FSH and testosterone concentrations and testicular histology were quantified at different times during exposure. Irradiation selectively decreased spermatogonial numbers until 17 days of irradiation, following which a maturation depletion was observed.

Continuous gamma-irradiation of rats: dose-rate effect on loss and recovery of spermatogenesis.

Male Sprague Dawley rats were continuously irradiated at a dose-rate of either 5 or 7 cGy/day, up to a total dose of 900 cGy. Changes in spermatogenesis with irradiation and the recovery of the testis during 33 weeks after irradiation were studied. No clear dose-rate effect with testicular weight occurred.