Pamela J. Farmer

ADAMTS5 is the major aggrecanase in mouse cartilage in vivo and in vitro.

Aggrecan is the major proteoglycan in cartilage, endowing this tissue with the unique capacity to bear load and resist compression. In arthritic cartilage, aggrecan is degraded by one or more ‘aggrecanases’ from the ADAMTS (a disintegrin and metalloproteinase with thrombospondin motifs) family of proteinases. ADAMTS1, 8 and 9 have weak aggrecan-degrading activity. However, they are not thought to be the primary aggrecanases because ADAMTS1 null mice are not protected from experimental arthritis, and cleavage by ADAMTS8 and 9 is highly inefficient. Although ADAMTS4 and 5 are expressed in joint tissues, and are known to be efficient aggrecanases in vitro, the exact contribution of these two enzymes to cartilage pathology is unknown. Here we show that ADAMTS5 is the major aggrecanase in mouse cartilage, both in vitro and in a mouse model of inflammatory arthritis. Our data suggest that ADAMTS5 may be a suitable target for the development of new drugs designed to inhibit cartilage destruction in arthritis, although further work will be required to determine whether ADAMTS5 is also the major aggrecanase in human arthritis.

Blocking aggrecanase cleavage in the aggrecan interglobular domain abrogates cartilage erosion and promotes cartilage repair

Aggrecan loss from cartilage in arthritis is mediated by aggrecanases. Aggrecanases cleave aggrecan preferentially in the chondroitin sulfate-2 (CS-2) domain and secondarily at the E(373) downward arrow(374)A bond in the interglobular domain (IGD). However, IGD cleavage may be more deleterious for cartilage biomechanics because it releases the entire CS-containing portion of aggrecan. Recent studies identifying aggrecanase-2 (ADAMTS-5) as the predominant aggrecanase in mouse cartilage have not distinguished aggrecanolysis in the IGD from aggrecanolysis in the CS-2 domain. We generated aggrecan knockin mice with a mutation that rendered only the IGD resistant to aggrecanases in order to assess the contribution of this specific cleavage to cartilage pathology. The knockin mice were viable and fertile. Aggrecanase cleavage in the aggrecan IGD was not detected in knockin mouse cartilage in situ nor following digestion with ADAMTS-5 or treatment of cartilage explant cultures with IL-1 alpha. Blocking cleavage in the IGD not only diminished aggrecan loss and cartilage erosion in surgically induced osteoarthritis and a model of inflammatory arthritis, but appeared to stimulate cartilage repair following acute inflammation. We conclude that blocking aggrecanolysis in the aggrecan IGD alone protects against cartilage erosion and may potentiate cartilage repair.

Histologic evaluation of inguinoscrotal migration of the gubernaculum in rodents during testicular descent and its relationship to the genitofemoral nerve

This study was designed to readdress the role of mechanical factors in testicular descent in rodents, with specific attention to the role of the genitofemoral nerve in this process. In a group of newborn rats, the genitofemoral nerve was divided unilaterally and a histologic comparison done of gubernacular and scrotal growth and development and testicular movement between sides. In all animals at birth, the gubernaculum and scrotum were poorly developed bilaterally and the distal gubernaculum was located in the groin and was not attached to the scrotum. The testis was located at or above the inguinal ring. With post-natal maturation, the processus vaginalis and gubernaculum advanced beyond the groin into the scrotum, and the scrotum developed to accomodate the testis on the control or normal side only. The testis started to descend into the scrotum only after these anatomic events occurred. Sectioning of the genitofemoral nerve aborted this process. This study suggests that inguinoscrotal testicular descent is an active process requiring gubernacular migration that is dependent on the genitofemoral nerve.

Evidence of a novel aggrecan-degrading activity in cartilage: Studies of mice deficient in both ADAMTS-4 and ADAMTS-5

OBJECTIVE To characterize aggrecan catabolism and the overall phenotype in mice deficient in both ADAMTS-4 and ADAMTS-5 (TS-4/TS-5 Delta-cat) activity. METHODS Femoral head cartilage from the joints of TS-4/TS-5 Delta-cat mice and wild-type mice were cultured in vitro, and aggrecan catabolism was stimulated with either interleukin-1alpha (IL-1alpha) or retinoic acid. Total aggrecan release was measured, and aggrecanase activity was examined by Western blotting using neoepitope antibodies for detecting cleavage at EGE 373-374 ALG, SELE 1279-1280 GRG, FREEE 1467-1468 GLG, and AQE 1572-1573 AGEG. Aggrecan catabolism in vivo was examined by Western blotting of cartilage that had been extracted immediately ex vivo. RESULTS TS-4/TS-5 Delta-cat mice were viable, fertile, and phenotypically normal. TS-4/TS-5 Delta-cat cartilage explants did not release aggrecan in response to IL-1alpha, and there was no detectable increase in aggrecanase neoepitopes. TS-4/TS-5 Delta-cat cartilage explants released aggrecan in response to retinoic acid. There was no retinoic acid-stimulated cleavage at either EGE 373-374 ALG or AQE 1572-1573 AGEG. There was a low level of cleavage at SELE 1279-1280 GRG and major cleavage at FREEE 1467-1468 GLG. Ex vivo, cleavage at FREEE 1467-1468 GLG was substantially reduced, but still present, in TS-4/TS-5 Delta-cat mouse cartilage compared with wild-type mouse cartilage. CONCLUSION An aggrecanase other than ADAMTS-4 and ADAMTS-5 is expressed in mouse cartilage and is up-regulated by retinoic acid but not IL-1alpha. The novel aggrecanase appears to have different substrate specificity from either ADAMTS-4 or ADAMTS-5, cleaving E-G bonds but not E-A bonds. Neither ADAMTS-4 nor ADAMTS-5 is required for normal skeletal development or aggrecan turnover in cartilage.

LEYDIG INSULIN-LIKE HORMONE, GUBERNACULAR DEVELOPMENT AND TESTICULAR DESCENT

PURPOSE Testicular descent is controlled by 2 morphological and hormonal steps. Transabdominal testicular descent is mediated by gubernacular swelling and regression of the cranial suspensory ligament. Müllerian inhibiting substance (MIS) has been proposed to stimulate the swelling but this remains controversial. Recently, a mouse mutant for Leydig insulin-like hormone (Insl3) was found to have undescended testis and deficient gubernaculum. We examine the testicular position of Insl3 mutant mice and the development of gubernacula. MATERIALS AND METHODS Mice with Insl3 homozygotes (-/-), heterozygotes (+/-) and wild-types (+/+) were examined at embryonic day 16.5 and birth. Macroscopic dissections and measurements of the testicular position, as well as microscopic analysis (hematoxylin and eosin, and Massons trichrome) were performed. RESULTS Of the mice 11 Insl3 homozygote males had significantly impaired testicular descent at embryonic day 16.5 and birth (p <0.01), and the cord was thin and elongated, while 14 heterozygotes and 7 wild-types had normal testicular descent. Microscopically, the gubernaculum of Insl3 homozygotes was small with some muscle development but no central core of mesenchyme at embryonic day 16.5. On the other hand, heterozygotes and wild-types had normal gubernacular development with a swelling reaction. CONCLUSIONS Insl3 mutants show feminized gubernaculum with deficient mesenchymal core. Insl3 appears to have some role in the gubernacular swelling reaction in mice.

Relationship between esophageal atresia with tracheoesophageal fistula and vertebral anomalies in mammalian embryos

BACKGROUND/PURPOSE The association of esophageal atresia with tracheoesophageal fistula and vertebral anomalies is well known, although the embryology of the combined defects has not yet been analysed. The present study describes the origin and development of esophageal atresia with tracheoesophageal fistula and vertebral anomalies in embryos using a rat model of VATER association produced by Adriamycin administration. RESULTS The lung buds were seen to develop from the laryngotracheal groove but the trachea failed to grow normally and the foregut overgrowth compensated for this failure. The trachea developed by trachealization of the foregut, which continued as a fistula to the lower esophageal segment. The notochord did not separate from the foregut at the correct time (before day 11 in rat embryos, Carnegie stage 11 in human embryos). Overgrowth of the foregut ventrally and caudally carried with it the attached notochord in the same direction leading to abnormal bending of this structure. CONCLUSION This irregularity of the notochord may be responsible for abnormal development of the vertebrae.

Does the sensory nucleus of the genitofemoral nerve have a role in testicular descent

BACKGROUND/PURPOSE A role for the genitofemoral nerve (GFN) and its neurotransmitter, CGRP, in testicular descent has been well established. The exact mechanism, however, by which circulating androgens act on the GFN is not yet known. The authors studied the sensory nucleus of the GFN (L1-L2 dorsal root ganglia [DRG]) to determine whether it is sexually dimorphic and able to be influenced by intrauterine antiandrogen treatment. METHODS Sprague-Dawley rats were injected daily with 100 mg/kg/d of the antiandrogen flutamide on day 16 to 19 of pregnancy. Control animals were treated with vehicle only. At the age of 2 to 3 days the newborn rats underwent unilateral dissection of the GFN. The proximal end was labelled with fluorescent dye, diamidinophenyl indole. The rats were killed 48 hours later, and the relevant ganglia (L1,L2) were removed. Cryostat frozen serial sections were cut, and retrogradely labelled fluorescent cells were counted under an epifluorescence microscope. In 32 animals, the cells were double fluorescent labelled with antibody to CGRP and FITC. RESULTS Of 75 rats evaluated, the mean number of the DAPI-positive, retrogradely labelled cells in the control groups was 266 +/- 55 in the male, and 230 +/- 67 in the female as opposed to 186 +/- 45 and 161 +/- 35 in the flutamide-treated male and female groups, respectively. In 32 animals the DRG sections were double labelled for CGRP. The number of CGRP plus DAPI-positive cells were as follows: control males, 60 +/-12; control females, 50 +/- 9; flutamide males, 36 +/- 8; flutamide females, 40 +/- 10. CONCLUSIONS These findings show a sexual dimorphism in the number of GFN cell bodies in the DRG. Flutamide decreases the number of GFN cell bodies in the DRG of both males and females. Our results are consistent with a role for circulating androgens acting on the sensory nucleus of the GFN (DRG) instead of the motor nucleus as previously thought. The release of CGRP from the nerve endings may occur via the sensory branch of the GFN.

Prenatal androgen blockade with flutamide inhibits masculinization of the genitofemoral nerve and testicular descent

Prenatal androgen blockade with the antiandrogen flutamide inhibits the inguinoscrotal phase of testicular descent. The evidence suggests that androgens may act indirectly via the sexually dimorphic genitofemoral nerve (GFN) to control this phase. Rats were exposed to flutamide on gestational days 16 through 19. Seven-day-old rats were subjected to retrograde fluorescent labelling of the GFN combined with immunohistochemistry for calcitonin gene-related peptide (CGRP), a neurotransmitter found in the GFN. Fluorescent-labelled and CGRP-immunoreactive neurons in the GFN spinal nucleus were quantified. Sexual dimorphism of the GFN nucleus was absent in the flutamide-treated rats but obviously present in control rats. Furthermore, control male nuclei had 24% more CGRP-immunoreactive neurons and 12% more fluorescent-labelled neurons than did flutamide-treated male nuclei. This study shows that prenatal androgen blockade with flutamide inhibits masculinization of the GFN, with significant reduction of its CGRP content. This supports the proposal that androgens act via the GFN, with CGRP as the second messenger, to control inguinoscrotal testicular descent.

Role of the gubernacular bulb in cremaster muscle development of the rat

The role of the gubernaculum during the inguino‐scrotal phase of testicular descent remains controversial. Some authors propose involution and eversion while others suggest active migration, although the site of growth is unknown. We aimed to determine whether the gubernacular bulb is actively proliferating or regressing during inguino‐scrotal testicular descent in the rat. Gubernacula were removed from Sprague‐Dawley rats and congenitally‐cryptorchid TS mutant rats. Animals (0, 3, 7, 10, and 11 days of age) were treated with bromodeoxyuridine (BUdR) 2 hr before they were killed. BUdR incorporation into newly synthesized DNA served as a marker of cell division. The gubernacula were histologically processed for hematoxylin‐eosin (H&E) and immunoperoxidase staining. Four different areas within the gubernaculum were examined for BUdR‐positive cells: area 1: plica gubernaculi (cord); area 2: pars infravaginalis gubernaculi (bulb); area 3: distal part of the cremaster muscle; and area 4: proximal part of the cremaster muscle. The rate of cell division for each of these areas was determined by counting the number of BUdR‐positive cells per 100 cells. The highest rate of BUdR labeling in both types of rats was in area 2, which is the tip of the gubernacular bulb, and this was significantly greater (P < 0.0001) than in the gubernacular cord or developing cremaster muscle. The mitotic activity was also noted to be significantly greater (P < 0.0001) at the distal end of the cremaster muscle than at the proximal end. The amount of mitosis decreased significantly (P < 0.01) in areas 2 and 4 of the gubernaculum in Sprague‐Dawley rats across the period studied. This trend was not observed in TS rats. Our results suggest that the bulb actively proliferates after birth, with possible differentiation into new cremaster muscle cells. We propose that the bulb is the growing end of the elongating gubernaculum, analogous to the growth of a limb bud. Anat Rec 267:159–165, 2002.

Apoptosis in tracheoesophageal embryogenesis in rat embryos with or without adriamycin treatment.

PURPOSE The aim of this study was to determine whether apoptosis participates in separation of the foregut into trachea and esophagus and to evaluate the potential role of apoptosis in the development of esophageal atresia and tracheoesophageal fistula (EA + TEF) induced by Adriamycin. METHODS Timed-pregnant rats were injected daily with either saline or Adriamycin (2 mg/kg) intraperitoneally on days 6 to 9 of gestation. Paraffin sections were prepared from 31 experimental and 31 control embryos at days 12 and 13 of gestation. Condensed nuclei were identified on the paraffin sections using the TUNEL method. Apoptosis was quantified by counting the positively stained cell nuclei in transverse sections of embryos. RESULTS In day 12 control embryos the number of apoptotic nuclei in both lateral ridges of the foregut was high (15.67 +/- 1.38) but relatively low (4.17 +/- 0.80) in Adriamycin-treated embryos (P< .0001). In day 13 Adriamycin-treated embryos, the number of apoptotic nuclei in the region of the upper esophageal pouch was extremely high (23.78.5 +/- 2.20) compared with no detectable apoptotic nuclei in the control embryos. CONCLUSIONS Apoptosis is required for normal tracheoesophageal embryogenesis and may be an important mechanism to be involved in the embryological development of esophageal atresia and tracheoesophageal fistula.