Experimentally induced lysosomal dysfunction disrupts processing of hypothalamic releasing factors.

Previous studies have shown that experimentally induced lysosomal dysfunction elicits various features of aging in the cortical telencephalon. The present study used cultured slices to test if: (1) it causes similar changes in the hypothalamus, and/or (2) modifies the processing of two releasing factors important to aging. A 2-day exposure to N-CBZ-L-phenylalanyl-L-alanine-diazomethylketone (ZPAD), a selective inhibitor of cathepsins B and L, triggered a pronounced increase in the numbers of lysosomes in the ventromedial and dorsomedial nuclei, and in lateral hypothalamus. Continued incubation with the inhibitor for 3-12 days resulted in the spread of endosomes-lysosomes into dendrites and, in the lateral hypothalamus, the formation of massive, lysosome-filled expansions of neuronal processes (meganeurites). These effects did not occur in the arcuate nucleus, making it the first region so far examined in which lysosomal proliferation is not initiated by hydrolase inhibitors. Despite this, a dense plexus of axons and terminals in the median eminence was partially depleted of growth hormone releasing hormone (GHRH) within 48 hours after addition of ZPAD. Moreover, the inhibitor caused axonal GHRH to become collected into large puncta, an effect highly suggestive of a partial failure in axonal transport. GHRH mRNA levels were not greatly affected by 6 days of ZPAD exposure, indicating that reduced expression did not play a major role in the peptide changes seen at 48 hours. Similar but less pronounced immunocytochemical changes were recorded for the somatostatin system in the arcuate and periventricular nucleus. It is concluded that lysosome dysfunction: (1) has different consequences for the arcuate nucleus than other brain regions, and (2) disrupts transport of hypothalamic releasing factors. The potential significance of the results to endocrine senescence is discussed.