Roger G. Klopp

Controlling caloric consumption: protocols for rodents and rhesus monkeys.

One approach for investigating biological aging is to compare control-fed animals with others restricted in calorie intake by 20% or more. Caloric restriction (CR) is the only intervention shown to extend the maximum lifespan of several invertebrates and vertebrates including spiders, fish, rats and mice. The capacity of CR to retard aging in nonhuman primates is now being explored. The rodent studies show that CR opposes the development of many age-associated pathophysiological changes, including changes to the brain and changes in learning and behavior. One goal of studying CR in rodent is to determine the mechanisms by which it retards aging to design interventions that duplicate those effects. The methods that we use for conducting CR studies on mice and rhesus monkeys are described. We employ procedures designed to achieve a high degree of caloric control for all animals in the study. As used in our studies, this control includes the following features: 1) animals are individually housed, and 2) all individuals in the control group eat the same number of calories (i.e., they are not fed ad lib). Although this method results in strict caloric control for all animals, there seems to be considerable procedural flexibility for the successful conduct of CR studies.

Influence of early rearing on lymphocyte proliferation responses in juvenile rhesus monkeys.

Lymphocyte proliferation responses and natural killer cell activity were evaluated in 35 juvenile rhesus monkeys derived from five different rearing conditions. Nursery-reared monkeys had proliferation responses which were significantly higher than those of mother-reared subjects. Reexamination of the nursery-reared monkeys 1.5 years later indicated that an abnormally high response to concanavalin A was still evident at 2.5 years of age, but both PHA and PWM responses had shown an age-appropriate decrease into the normal range for this species. Proliferation responses in monkeys that had been weaned early from their mothers at 6 months of age were also higher than values for control monkeys that remained with their mothers, but below those of the nursery-reared monkeys. In contrast, monkeys that had received multiple separations from the mother between 3 and 7 months of age showed lymphocyte proliferation responses that were below normal. These results indicate that early rearing conditions can have a lasting effect on certain immune responses in the developing primate.

Impairment of the transcriptional responses to oxidative stress in the heart of aged C57BL/6 mice

Abstract: To investigate the transcriptional response to oxidative stress in the heart and how it changes with age, we examined the cardiac gene expression profiles of young (5 months old), middle‐aged (15 months old), and old (25 months old) C57BL/6 mice treated with a single intraperitoneal injection of paraquat (50 mg/kg). Mice were killed at 0, 1, 3, 5, and 7 hours after paraquat treatment, and the gene expression profile was obtained with high‐density oligonucleotide microarrays. Of 9,977 genes represented on the microarray, 249 transcripts in the young mice, 298 transcripts in the middle‐aged mice, and 256 transcripts in the old mice displayed a significant change in mRNA levels (ANOVA, P < .01). Among these, a total of 55 transcripts were determined to be paraquat responsive for all age groups. Genes commonly induced in all age groups include those associated with stress, inflammatory, immune, and growth factor responses. Interestingly, only young mice displayed a significant increase in expression of all three isoforms of GADD45, a DNA damage‐responsive gene. Additionally, the number of immediate early genes found to be induced by paraquat was considerably higher in the younger animals. These results demonstrate that, at the transcriptional level, there is an age‐related impairment of specific inducible pathways in the response to oxidative stress in the mouse heart.

Lymphocyte-induced angiogenesis factor is produced by L3T4+ murine T lymphocytes, and its production declines with age

SummaryLymphocyte-induced angiogenesis factor (LIA) is a product of T lymphocytes which has been shown to stimulate new vessel formation. Because immune senescence most profoundly affects T lymphocyte functions, we suspected that LIA production would decline with age. An assay for angiogenesis stimulated by allogeneic reaction was performed by injecting spleen cells from young or old donor mice into the skin of irradiated allogeneic recipient mice. The spleen cells from young mice induced a significantly greater number of vessels than did cells from older mice. In additional experiments, spleen cells from young and old animals were treated with a monoclonal antibody GK1.5) directed at the L3T4 antigen on murine T helper lymphocytes. Such treatment significantly reduced the new vessel formation induced by young lymphocytes but had no effect on that induced by lymphocytes from old animals. Studies employing indirect immunofluorescence demonstrated that the proportion of L3T4+ cells in the mononuclear fraction of splenocytes was nearly identical in both young and old mice. From these investigations we can conclude that (1) L3T4+ lymphocytes are responsible for LIA production, and (2) production, like that of other T lymphokines, declines with age.

Immunologic function during adjuvant BCG immunotherapy for malignant melanoma: Induction of anergy

SummarySerial tests of immunological function were performed on 28 patients participating in a randomized controlled clinical trial of adjuvant Tice-stain BCG immunotherapy administered by tine technique for malignant melanoma. Cryopreserved lymphocyte samples obtained prior to study entry and at 3 and 6 months there-after were tested by mixed lymphocyte culture (MLC), cell-mediated lympholysis (CML), antibody-dependent cell-mediated cytotoxicity (K cell), and natural killing (NK cell) assays, the last two assays being performed with the Chang cell line. Delayed-type hypersensitivity (DTH) skin tests to recall antigens were performed at the same intervals.At entry to the study in vitro lymphocyte reactivity of patients was similar to that of normal controls, and most (75%) of the patients reacted to at least one recall antigen. Serial lymphocyte reactivity measured by the in vitro tests was not different in the BCG and control groups, but BCG treatment was associated with a marked, statistically significant (P<0.01) reduction in DTH skin test reactivity. BCG therapy was not shown to delay recurrence of the disease.