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Type 2 diabetes may be associated with elevated fracture risk, but the impact on bone loss is unknown. Analysis of 4-year change in hip BMD data from a cohort of white and black well-functioning men and women 70-79 years of age found that white women with diabetes had more rapid bone loss at the femoral neck than those with normal glucose metabolism.

INTRODUCTION

Type 2 diabetes may be associated with elevated fracture risk in older adults. Although type 2 diabetes is not associated with lower BMD, older diabetic adults have a higher prevalence of other risk factors for fracture, including more frequent falls, functional limitations, and diabetic complications. With this burden of risk factors, loss of BMD could place older adults with diabetes at higher risk of sustaining a fracture.

MATERIALS AND METHODS

To determine if bone loss is increased with type 2 diabetes, we analyzed data from the Health, Aging, and Body Composition Study of white and black well-functioning men and women 70-79 years of age. Hip BMD was measured at baseline and 4 years later in 480 (23%) participants with diabetes, 439 with impaired glucose metabolism, and 1172 with normal glucose homeostasis (NG).

RESULTS

Those with diabetes had higher baseline hip BMD and weight, but among white women, had more weight loss over 4 years. White women with diabetes lost more femoral neck and total hip BMD than those with NG in age-adjusted models. After multivariable adjustment, diabetes was associated with greater loss of femoral neck BMD (-0.32%/year; 95% CI: -0.61, -0.02) but not total hip BMD. In men and black women, change in hip BMD was similar for participants with diabetes and NG.

CONCLUSIONS

Despite having higher baseline BMD, diabetic white women, but not men or black women, had more rapid bone loss at the femoral neck than those with NG. This increased bone loss may contribute to the higher fracture risk observed in older diabetic women.

Daily phagocytosis by the retinal pigment epithelium (RPE) of spent photoreceptor outer segment fragments is critical for vision. In the retina, early morning circadian photoreceptor rod shedding precedes synchronized uptake of shed photoreceptor particles by RPE cells. In vitro, RPE cells use the integrin receptor alphavbeta5 for particle binding. Here, we tested RPE phagocytosis and retinal function in beta5 integrin--deficient mice, which specifically lack alphavbeta5 receptors. Retinal photoresponses severely declined with age in beta5-/- mice, whose RPE accumulated autofluorescent storage bodies that are hallmarks of human retinal aging and disease. beta5-/- RPE in culture failed to take up isolated photoreceptor particles. beta5-/- RPE in vivo retained basal uptake levels but lacked the burst of phagocytic activity that followed circadian photoreceptor shedding in wild-type RPE. Rhythmic activation of focal adhesion and Mer tyrosine kinases that mediate wild-type retinal phagocytosis was also completely absent in beta5-/- retina. These results demonstrate an essential role for alphavbeta5 integrin receptors and their downstream signaling pathways in synchronizing retinal phagocytosis. Furthermore, they identify the beta5-/- integrin mouse strain as a new animal model of age-related retinal dysfunction.

BACKGROUND

Little is known about the incorporation of breast cancer risk reduction therapies into clinical practice.

METHODS

We assessed factors related to physicians' performance of breast cancer risk reduction practices through a self-administered survey. Subjects were California physicians in family medicine, internal medicine, or obstetrics/gynecology, identified through the AMA Masterfile. Physicians reported their breast cancer risk reduction practices (initiating patient counseling, referring patients for genetic evaluation, and prescribing tamoxifen or raloxifene) as well as barriers to counseling.

RESULTS

Of 1647 eligible physicians, 822 responded. Eighty-six percent reported initiating counseling, 45% referred a patient for genetic evaluation, 31% prescribed raloxifene, and 11% prescribed tamoxifen for breast cancer prevention in the past year. The leading frequent barriers to counseling were "not enough time" (40.3%) and "insufficiently informed about risk reduction options" (19.1%). Multivariate analysis showed that a training and role factors scale was negatively associated with all risk reduction practices, and number of breast cancer diagnoses per year was positively associated with referring for genetic evaluation and prescribing chemoprevention.

CONCLUSIONS

Physicians in primary care specialties report participation in several breast cancer risk reduction activities. Issues related to physician training and role in risk reduction affect the implementation of these practices.

Amphotericin B is a medically important antifungal antibiotic that is produced by Streptomyces nodosus. Genetic manipulation of this organism has led to production of the first amphotericin analogues by engineered biosynthesis. Here, these studies were extended by sequencing the chromosomal regions flanking the amphotericin polyketide synthase genes, and by refining the phage KC515 transduction method for disruption and replacement of S. nodosus genes. A hybrid vector was constructed from KC515 DNA and the Escherichia coli plasmid pACYC177. This vector replicated as a plasmid in E. coli and the purified DNA yielded phage plaques on Streptomyces lividans after polyethylene glycol (PEG)-mediated transfection of protoplasts. The left flank of the amphotericin gene cluster was found to include amphRI, RII, RIII and RIV genes that are similar to regulatory genes in other polyene biosynthetic gene clusters. One of these regulatory genes, amphRI, was found to have a homologue, amphRVI, located in the right flank at a distance of 127 kbp along the chromosome. However, disruption of amphRVI using the hybrid vector had no effect on the yield of amphotericin obtained from cultures grown on production medium. The hybrid vector was also used for precise deletion of the DNA coding for two modules of the AmphC polyketide synthase protein. Analysis by UV spectrophotometry revealed that the deletion mutant produced a novel pentaene, with reduced antifungal activity but apparently greater water-solubility than amphotericin B. This shows the potential for use of the new vector in engineering of this and other biosynthetic pathways in Streptomyces.